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Substrate channeling is a widespread mechanism in metabolic pathways to avoid decomposition of unstable intermediates, competing reactions, and to accelerate catalytic turnover. During the biosynthesis of light-harvesting phycobilins in cyanobacteria, two members of the ferredoxin-dependent bilin reductases are involved in the reduction of the open-chain tetrapyrrole biliverdin IXα to the pink pigment phycoerythrobilin. The first reaction is catalyzed by 15,16-dihydrobiliverdin:ferredoxin oxidoreductase and produces the unstable intermediate 15,16-dihydrobiliverdin (DHBV). This intermediate is subsequently converted by phycoerythrobilin:ferredoxin oxidoreductase to the final product phycoerythrobilin. Although substrate channeling has been postulated already a decade ago, detailed experimental evidence was missing. Using a new on-column assay employing immobilized enzyme in combination with UV-Vis and fluorescence spectroscopy revealed that both enzymes transiently interact and that transfer of the intermediate is facilitated by a significantly higher binding affinity of DHBV toward phycoerythrobilin:ferredoxin oxidoreductase. Concluding from the presented data, the intermediate DHBV is transferred via proximity channeling.
Ein Bioraffineriekonzept für (Bier-)Treber wird vorgeschlagen, bei dem im Gegensatz zu bestehenden Konzepten wasserlösliche Komponenten durch Pressen abgetrennt und als Grundlage für eine Milchsäurefermentation mit Lactobacillus delbrueckii subsp. lactis verwendet werden. Die verbleibenden strukturellen Kohlenhydrate des Treberrückstandes werden durch hydrothermale und enzymatische Vorbehandlung in fermentierbare Zucker überführt. Es entstehen deutlich weniger Nebenprodukte, die das Wachstum von Mikroorganismen inhibieren können, als bei der Nutzung von nicht abgepresstem Treber.
In order to discuss the kinds of reasoning a visualization supports and the conclusions that can be drawn within the analysiscontext, a theoretical framework is needed that enables a formal treatment of the reasoning process. Such a model needs toencompass three stages of the visualization pipeline: encoding, decoding and interpretation. The encoding details how dataare transformed into a visualization and what can be seen in the visualization. The decoding explains how humans constructgraphical contexts inside the depicted visualization and how they interpret them assigning meaning to displayed structuresaccording to a formal reasoning strategy. In the presented model, we adapt and combine theories for the different steps intoa unified formal framework such that the analysis process is modelled as an assignment of meaning to displayed structuresaccording to a formal reasoning strategy. Additionally, we propose the ConceptGraph, a combined graph-based representationof the finite-state transducers resulting from the three stages, that can be used to formalize and understand the reasoning process.We apply the new model to several visualization types and investigate reasoning strategies for various tasks.
A novel method for the highly stereoselective synthesis of tetrahydropyrans is reported. This domino reaction is based on a twofold addition of enamides to aldehydes followed by a subsequent cyclization and furnishes fully substituted tetrahydropyrans in high yields. Three new σ-bonds and five continuous stereogenic centers are formed in this one-pot process with a remarkable degree of diastereoselectivity. In most cases, the formation of only one out of 16 possible diastereomers is observed. Two different stereoisomers can be accessed in a controlled fashion starting either from an E- or a Z-configured enamide.
Covering edges in networks
(2019)
In this paper we consider the covering problem on a networkG=(V,E)withedgedemands. The task is to cover a subsetJ⊆Eof the edges with a minimum numberof facilities within a predefined coverage radius. We focus on both the nodal andthe absolute version of this problem. In the latter, facilities may be placed every-where in the network. While there already exist polynomial time algorithms to solvethe problem on trees, we establish a finite dominating set (i.e., a finite subset ofpoints provably containing an optimal solution) for the absolute version in generalgraphs. Complexity and approximability results are given and a greedy strategy isproved to be a (1+ln(|J|))-approximate algorithm. Finally, the different approachesare compared in a computational study.
This contribution presents a novel approach to investigate entrainment in distillation and absorption columns. An image-based probe allows precise droplet detection at various radial and axial positions above trays. Validations achieve an aver-age error of 6.4 % (monospheres 9.2–114.4mm) and 3 % (monodisperse droplet stream up to 19 m s–1and 74.5mm).Experiments in a DN 450 cold flow test rig show an increasing (decreasing) share of larger droplets with higher gas (liq-uid) loads. Locally measured droplet sizes depend on probe position as well as tray design and enable an extrapolation tointegral entrainment rates.
The use of digital media in adult education is very heterogene-ous. To date, there are no empirical studies that have examined the possibility that media-related differences in media usage of adult educators could be in part due to differential media pedagogical attitudes of adult educators. Moreover, there is a lack of empirical evidence to support the understanding of what factors modulate differences in media pedagogical com-petencies of adult educators. In order to examine different the-oretical potentialities, in the present study, an online survey of adult educators (n = 626) was conducted to investigate the attitudes of adult educators in Germany toward their use of digital media. The results of the study indicate that there are influencing factors such as educational level or employment context on attitudes toward digital media.
Organic solutions of lithium bis(fluorosulfonyl)imide (LiFSI) are promising electrolytes for Li-ion batteries. Information on the diffusion coefficients of the species in these solutions is needed for battery design. Therefore, the self-diffusion coefficients in such solutions were studied experimentally with the pulsed-field gradient nuclear magnetic resonance technique. The self-diffusion coefficients of the ions Li+ and FSI− as well as those of the solvents were measured for LiFSI solutions in pure dimethyl carbonate and ethylene carbonate as well as in mixtures of these solvents at 298 K and ambient pressure. Despite the Li+ ion being the smallest species in the solution, its self-diffusion coefficient is the lowest as a result of its strong coordination with the solvent molecules.
The production of nylon-6.6 is one of the largest scale syntheses in industrial chemistry. The standard procedure is based on an energy consuming low-level conversion of cyclohexane to yield adipic acid in two steps that is converted to nylon-6.6 in a separate step. Therefore, there is a strong intent to optimize the synthetic route in an economic and ecologic matter. In this work, we present a one-pot oxygenation of cyclohexane with hydrogen peroxide and a µ4-oxido-copper cluster catalyst to yield dicarboxylic acids with adipic acid as the main product.
This paper provides experimental results on investigations for the validation of photo-grammetric strain measurements of ultra-high-performance concrete (UHPC)-prismssubjected to static and cyclic bending-tensile stress. For this purpose, 4 static and5 cyclic test series were performed. Damage progresses during loading are monitoredby means of a digital image correlation (DIC) system and a clip gauge. The control ofthe DIC by trigger lists and the measurement noise as a function of the measurementrate are examined. All static tests were performed force controlled with the same test-ingspeedandthesamemeasuringrateofDICandclipgauge.Allcyclictestswereperformed with the same upper and lower stress levels but with different loading rates.During the static tests, the DIC can be used to make accurate strain measurementsbefore UHPC failure. In the cyclic tests, the measurement noise of the DICdecreases with an increasing measuring rate. The tests performed confirm the con-trol of the DIC by trigger lists for cyclic tests on UHPC-prisms and show that themeasurement noise is negligible in static and cyclic tests.
The Atacama Desert is the driest non‐polar desert on Earth, presenting precarious conditions for biological activity. In the arid coastal belt, life is restricted to areas with fog events that cause almost daily wet–dry cycles. In such an area, we discov‐ered a hitherto unknown and unique ground covering biocenosis dominated by li‐chens, fungi, and algae attached to grit‐sized (~6 mm) quartz and granitoid stones. Comparable biocenosis forming a kind of a layer on top of soil and rock surfaces in general is summarized as cryptogamic ground covers (CGC) in literature. In contrast to known CGC from arid environments to which frequent cyclic wetting events are lethal, in the Atacama Desert every fog event is answered by photosynthetic activity of the soil community and thus considered as the desert's breath. Photosynthesis of the new CGC type is activated by the lowest amount of water known for such a community worldwide thus enabling the unique biocenosis to fulfill a variety of eco‐system services. In a considerable portion of the coastal Atacama Desert, it protects the soil from sporadically occurring splash erosion and contributes to the accumula‐tion of soil carbon and nitrogen as well as soil formation through bio‐weathering. The structure and function of the new CGC type are discussed, and we suggest the name grit–crust. We conclude that this type of CGC can be expected in all non‐polar fog deserts of the world and may resemble the cryptogam communities that shaped ancient Earth. It may thus represent a relevant player in current and ancient biogeo‐chemical cycling.
The increase of pluvial flooding has long been discussed to be a most probableoutcome of climate change. This has raised the question of necessary conse-quences in the design of urban drainage systems in order to secure adequateflood protection and resilience. Due to the uncertainties in future trends ofheavy rainfall events, the awareness of remaining risks of extreme pluvialflooding needs to be roused at responsible decision makers and the public aswell leading to the implementation of pluvial flood risk management (PFRM)concepts. The state of two core elements of PFRM in Germany are describedhere: flood hazard and risk evaluation and risk communication. In 2016 theguideline DWA-M 119 has been published to establish city-based PFRM con-cepts in specification of the European Flood Risk Management Directive(EU 2007). As core elements, the guidelines recommend a site-specific analysisand evaluation of flood hazards and potentials of flood damages to create floodhazard and flood risk maps. In the long run, PFRM needs to be established asa joint community effort and a requirement for more flood resilience. The riskcommunication within the administration and in the public requires a com-prehensible characterization and classification of heavy rainfall to illustrateevent extremity. The concept of a rainstorm severity index (RSI) instead of sta-tistical rainfall parameters appears to be promising to gain a better perceptionby affected citizens and non-hydrology-experts as well. A methodical approachis described to specify and assign site-specific rainfall depths within the sever-ity index scheme RSI12.This article is categorized under:
Engineering Water > Sustainable Engineering of Water
Engineering Water > Planning Water
Engineering Water > Methods
Measuring Particle Size Distributions in Multiphase Flows Using a Convolutional Neural Network
(2019)
The efficiency of many chemical engineering applications depends on the surface/volume ratio of the dispersed phase. Knowledge of this particle size distribution is a key factor for better process control. The challenge of measurements acquired by optical imaging techniques is the segmentation of overlapping particles, especially in high phase fraction flows. In this work, a convolutional neural network is trained to segment droplets in images acquired by a shadowgraphic approach. The network is trained on artificial images and implemented into a droplet size algorithm. The results are compared to an OpenSource segmentation approach.
Hajós' conjecture asserts that a simple Eulerian graph on n vertices can be decomposed into at most [(n-1)/2] cycles. The conjecture is only proved for graph classes in which every element contains vertices of degree 2 or 4. We develop new techniques to construct cycle decompositions. They work on the common neighborhood of two degree-6 vertices. With these techniques, we find structures that cannot occur in a minimal counterexample to Hajós' conjecture and verify the conjecture for Eulerian graphs of pathwidth at most 6. This implies that these graphs satisfy the small cycle double cover conjecture.
The interest in micro applications increases in recent years due to new methods of fabrication. One fabrication process is direct laser writing, which can fabricate high-precision structures in the micrometer range. The material properties of the micro structures are related to the writing parameters, such as laser power, scan speed, distance between written lines and writing direction. This work presents investigations of the thermal length expansion coefficients of a laser-written polymer in regard to laser power. To this end cantilever structures are fabricated. The small cantilevers are heated and their length expansions observed using a microscope. Images of the cantilevers at different temperatures are taken and by image post processing, the change in length and their coefficients of thermal expansion is determined.
With significant technological growth and computing power it is possible to simulate metal cutting processes with different discretization techniques. Classically the Lagrangian or Eulerian finite element formulations are used to model metal cutting process. Lagrangian approach is accurate with it's representation of the domain boundary, but requires a re-meshing procedure to avoid element distortions. Eulerian approach provides a steady state solution of the chip-workpiece separation, however its limitation lies in the treatment of convective terms during motion. The Arbitrary Lagrangian-Eulerian method can be used to combine the advantages of both methods and avoid the disadvantages. In the Lagrangian framework, use of a meshless technique– Smooth Particle Hydrodynamics (SPH) has its advantage in large strain deformation problems without the need for re-meshing algorithms. This work compares the LAG, ALE and SPH approaches by modelling a turning process.
This work reviews the state-of-the-art models for the simulation of bubble columns and focuses on methods coupled with computational fluid dynamics (CFD) where the potential and deficits of the models are evaluated. Particular attention is paid to different approaches in multiphase fluid dynamics including the population balance to determine bubble size distributions and the modeling of turbulence where the authors refer to numerous published examples. Additional models for reactive systems are presented as well as a special chapter regarding the extension of the models for the simulation of bubble columns with a present solid particle phase, i.e., slurry bubble columns.
Classification of Fine Particles Using the Hydrodynamic Forces in the Boundary Layer of a Membrane
(2019)
The wet classification of particles < 10 μm is a complex process that has been researched for many years. In this study, the usage of a modified cross-flow filtration process as a classification process was investigated. With this process, particles in a fine micrometer range can be separated from suspensions. The upper particle size is dependent on hydrodynamic forces. The experimental results were compared with different hydrodynamic force models to predict upper size. The influence of the permeate flux and the particle concentration in the feed on the upper particle size is studied.
In this contribution a phase field model for ductile fracture with linear isotropic hardening is presented. An energy functional consisting of an elastic energy, a plastic dissipation potential and a Griffith type fracture energy constitutes the model. The application of an unaltered radial return algorithm on element level is possible due to the choice of an appropriate coupling between the nodal degrees of freedom, namely the displacement and the crack/fracture fields. The degradation function models the mentioned coupling by reducing the stiffness of the material and the plastic contribution of the energy density in broken material. Furthermore, to solve the global system of differential equations comprising the balance of linear momentum and the quasi-static Ginzburg-Landau type evolution equation, the application of a monolithic iterative solution scheme becomes feasible. The compact model is used to perform 3D simulations of fracture in tension. The computed plastic zones are compared to the dog-bone model that is used to derive validity criteria for KIC measurements.
The influence on the mass transfer in liquid-liquid extraction was investigated during droplet formation in a quiescent aqueous continuous phase for the two transition components, acetone and acetonitrile, in toluene. Both transition components have similar characteristics. However, an approximately eight times slower mass transfer of a droplet hanging on a capillary in relation to a rising droplet could be observed. The droplet formation time and the initial solute concentration are decisive for the mass transfer behaviour. A lower volumetric flow leads to slower droplet formation and a higher specific mass transfer area enhancing mass transfer, which is visualized via laser induced fluorescence (LIF). Additionally, as expected, higher initial solute concentrations promote Marangoni turbulences and thus mass transfer, which is measured via confocal Raman spectroscopy inside a fixed hanging droplet.
Sustained Human Background Exposure to Acrolein Evidenced by Monitoring Urinary Exposure Biomarkers
(2019)
Scope
This study investigates a potential correlation between the intake of heat-processed food and the excretion of the acrolein (AC) biomarkers N-acetyl-S-(3-hydroxypropyl)-l-cysteine (HPMA) and N-acetyl-S-(carboxyethyl)-l-cysteine (CEMA) based on two human studies.
Methods and Results
Human exposure to AC is monitored using the AC-related mercapturic acids HPMA and CEMA in the urine of a) non-smoking volunteers under defined living conditions and b) of non-smoking volunteers on unrestricted or vegan diet under free living conditions. Free living volunteers in part show markedly enhanced urinary excretions of HPMA and CEMA. The intake of heat-processed food does not influence AC-related biomarker excretion. Incidentally enhanced urinary exposure biomarker levels appear to suggest AC exposure possibly from open fire, barbecuing, or tobacco smoke. However, kinetics of urinary biomarkers related to tobacco and other potential smoke exposure, do not correlate with those observed for HPMA and CEMA.
Conclusion
This study is the first to convincingly show a sustained and substantial background exposure to AC in non-smoking humans, clearly independent from uptake of heat-processed foods. The data strongly point to endogenous AC generation by pathways of mammalian and/or microbial metabolism as yet not taken into consideration.
Water availability shapes edaphic and lithic cyanobacterial communities in the Atacama Desert
(2019)
In the Atacama Desert, cyanobacteria grow on various substrates such as soils (edaphic) and quartz or granitoid stones (lithic). Both edaphic and lithic cyanobacterial communities have been described but no comparison between both communities of the same locality has yet been undertaken. In the present study, we compared both cyanobacterial communities along a precipitation gradient ranging from the arid National Park Pan de Azúcar (PA), which resembles a large fog oasis in the Atacama Desert extending to the semiarid Santa Gracia Natural Reserve (SG) further south, as well as along a precipitation gradient within PA. Various microscopic techniques, as well as culturing and partial 16S rRNA sequencing, were applied to identify 21 cyanobacterial species; the diversity was found to decline as precipitation levels decreased. Additionally, under increasing xeric stress, lithic community species composition showed higher divergence from the surrounding edaphic community, resulting in indigenous hypolithic and chasmoendolithic cyanobacterial communities. We conclude that rain and fog water, respectively, cause contrasting trends regarding cyanobacterial species richness in the edaphic and lithic microhabitats.
Synapses are the fundamental structures that regulate the functionality of the neural circuit. The ability of the synapse to modulate its structure and function at a fast rate due to various sensory inputs provides the strength to the nervous system to incorporate new adaptations and behaviors in the animal. The synapses are very dynamic throughout the life of the animal starting from early development. Continuous events of formation and elimination of synapse, activation and inhibition of synaptic function are observed in almost all synapses. These processes occur at a high speed and require controlled cellular mechanisms. Imbalance in these processes results in defective nervous system and has been reported in many neurological disorders. Thus, it is important to understand the mechanisms that regulate process of synapse development maintenance and function.
Kinases and phosphatases are the key regulators of cellular mechanisms. Understanding the function of these molecules in the neuron will shed light on the molecular mechanisms of synaptic plasticity. Using Drosophila melanogaster larval neuromuscular junction as a model, Bulat et al. (2014) performed a large RNAi based screen targeting kinome and phosphatome of Drosophila to identify the essential kinases and phosphatases and found Myeloid leukemia factor-1 adaptor molecule (Madm) and Protein phosphatase 4 (PP4) as novel regulators of synapse development and maintenance. The function of these molecules in the nervous system has not been reported and hence I investigated on the role of Madm and PP4 in the regulation of synapse development, maintenance and function.
Myeloid leukemia factor-1 adaptor molecule (Madm), a ubiquitously expressing psuedokinase essentially functions to regulate synaptic growth, stability and function. Using a combination of genetic and high throughput imaging, I could demonstrate that Madm functions to regulate the synaptic growth and stability from the presynapse and synaptic organization form the postsynapse. Also, I could demonstrate that Madm functions in association with mTOR pathway to regulate synapse growth acting downstream of 4E-BP. In addition, using electrophysiology, we could demonstrate that Madm is essential for the basic synaptic transmission with an additive function of retrograde synaptic potentiation. In summary, I could demonstrate that Madm is a novel regulator of synaptic development, maintenance and function.
Protein phosphatase 4 (PP4), a ubiquitously expressing protein phosphatase is involved in the regulation of multiple aspects of the nervous system. I could demonstrate that PP4 is essential for the development of nervous system and the metamorphosis. Using genetics and imaging analysis, I could demonstrate that loss of PP4 results in the abnormal morphology of cell organelles. In addition, I could show that loss of PP4 results in defective brain development with poorly developed structures.
Altogether, in this study, I could demonstrate the importance of novel molecules, a pesudokinase Madm and protein phosphatases PP4 in the nervous system to regulate distinct aspects of the neuron.
Nachfolgend ist ein modularer Multilevel-Umrichter mit einer Mehrzahl von Einzelmodulen beschrieben, bei dem eine erste Gruppe von Modulen hintereinander zu einem geschlossenen Ring verschaltet sind und mindestens zwei Abgriffe jeweils zwischen zwei benachbarten Einzelmodulen des Rings angeordnet sind. An mindestens zwei Abgriffen ist je eine zweite weitere Gruppe von Modulen als von der Ringanordnung abzweigendes und einen Sternstrang bildendes Phasenmodul vorgesehen ist. Diese letztgenannten Gruppen von Modulen bilden an den Enden jeweils Anschlüsse oder Abgriffe. Die Module erlauben durch Schaltelemente ein Verschalten von Energiespeichern benachbarter Einzelmodule, wodurch zwischen zwei benachbarten Phasenanschlüssen eine Spannungsdifferenz bereitstellbar ist, die von einer Steuereinheit entsprechend eines Verlaufs eines mehrphasigen Drehfeldes regelbar ist. Ferner betrifft die vorliegende Erfindung ein Polyphasensystem und ein Verfahren zum effizienten Leistungsaustausch zwischen Modulen.
Wetted contacts play an important role in many fields. A prominent example in engineering is the lubricated contact between tool and workpiece in machining processes with cutting liquids. In such contacts, highly dynamic processes occur in the fluid at small length scales under extreme conditions regarding temperature, pressure, and shear. Experimental studies of these phenomena are generally not feasible. Thus, only little information on the actual processes in the contact zone is available. A tractable route for obtaining such information is molecular dynamics (MD) simulation. As input for these simulations, only a potential model that describes the interactions on the atomistic scale, is needed. On that basis also complex processes can be predicted. In the present work, a simple model potential was used, i.e. the Lennard-Jones truncated and shifted potential (LJTS), which was parameterized to describe the solids, the fluid, and their interactions. A novel method for determining fluid properties with non-equilibrium MD simulations was developed, which yields thermal, caloric and transport properties in a single simulation run. It can also be used for studying the influence of shear on these properties. With the new method, a comprehensive study of properties of the LJTS fluid was carried out. Furthermore, it was investigated how these fluid properties change near the solid-fluid interface and how these changes affect the conductive heat transfer between the solid and the fluid. Finally, a nanotribological process was studied, in which all these phenomena occur simultaneously.
Hamiltonian daemons allow the transfer of energy from systems with very fast degrees
of freedom to systems with slower ones across several orders of magnitude. They act on
small scales and can be regarded as micro-engines.
Such daemons were previously described in the classical as well as the quantum me-
chanical regime. In this thesis the semi-classical regime is examined, where quantum
phenomena occur as corrections to classical systems. Here, the focus is on numerical
simulations.
First some introductory models are examined. They are concerned with quantum
tunneling, since it occurs as an important quantum correction, as well as with the
capture and decay of bound states, since this represents the transition between the
dynamical phases of a daemon: adiabatic decoupling and downconversion.
The examinations are carried out using wave functions, as solutions to the Schrödinger
equation, and by means of Wigner functions in a quantum mechanical phase-space in
the framework of the Weyl-Wigner-Groenewold-Moyal formalism. For one these Wigner
functions are computed from the wave functions, but they are also obtained from a
numerical method based on the Moyal equation, which will be introduced here.
After developing this methodology, it is employed in the study of a daemon system
with a tilted washboard potential. The daemon behavior is studied with regards to
quantum corrections, especially in phase-space and concerning Kruskal’s theorem, which
describes the capture of phase-space flow via a time-dependent separatrix.
Lastly the semi-classically quantized phase-space will be discussed as a basis for a
combined description of both classical and quantum daemons. The behavior of the
energy spectrum in the deep quantum regime is explained by dynamical tunneling pro-
cesses.
Untersuchung der spektroskopischen und kinetischen Eigenschaften von Dihydroxysäure-Dehydratasen
(2019)
Eisen-Schwefel-Cluster sind wichtige Cofaktoren, die an der Redox- und Nicht-Redox-Katalyse beteiligt sind. Enzyme der Lyase-Familie wie Aconitase, Fumarase und DihydroxysäureDehydratase enthalten Cluster, die an drei Cystein-Liganden koordiniert sind. Das Eisenion, das an einen Nicht-Cysteinyl-Liganden koordiniert ist, wirkt als Lewis-Säure und interagiert mit dem Substrat über die Hydroxygruppe des dritten Kohlenstoffatoms und der Carboxygruppe. Das in dieser Arbeit untersuchte Enzym ist die Dihydroxysäure-Dehydratase (DHAD), welche an der Biosynthese der Aminosäuren Isoleucin, Leucin und Valin beteiligt ist. In dieser Arbeit wurden die kinetischen und spektroskopischen Eigenschaften von DHAD aus Streptococcus mutans, Streptococcus thermophilus, Saccharomyces cerevisiae und Escherichia coli untersucht. Zu diesem Zweck wurden ihre Gene kloniert und die Proteine in E. coli Zellen exprimiert. Nach der Proteinreinigung zeigten die UV-Vis-, ESR- und Mössbauer-Spektroskopie die Anwesenheit eines [2Fe-2S]2+-Clusters in der S. mutans DHAD, eines [4Fe-4S]2+-Cluster in E. coli DHAD und einer Mischung von [2Fe-2S]2+- und [4Fe-4S]2+ -Cluster in der S. cerevisiae DHAD. Darüber hinaus unterstützten die Ergebnisse der Sauerstoffstabilitätstests und des Eisen- und säurelabilen Sulfidgehalts die spektroskopischen Analysen. MössbauerSpektroskopie lieferte zusätzlich Information für das Vorhandensein eines nicht-cysteinyl-koordinierten Eisenions in den Clustern der S. mutans und in E. coli DHAD. Enzymaktivitätsmessungen mit dem Dinitrophenylhydrazin-Assay und den hier etablierten gekoppelten Assays mit NADH-abhängigen Ketoisovalerat-reduzierenden Dehydrogenasen wurden durchgeführt, um die spezifischen Aktivitäten und die kinetischen Parameter der DHAD zu bestimmen. Interaktionsstudien der S. mutans DHAD mit dem Substrat, dem Produkt, den substrat- und produktähnlichen Verbindungen mittels UV-Vis-, ESR-, Mössbauer- und FT-IR-Spektroskopie zeigten, dass nur das (2R)-Isomer des Substrats und 2-Ketosäuren (KIV, Kbut) mit dem Cluster der S. mutans DHAD interagierten. Das DHAD-Produkt (2-Ketoisovalerat) interagiert vermutlich über seine Enolform mit dem Cluster. Interessanterweise wurde starke Interaktion des Clusters mit der β-Mercaptogruppe von 3-Mercaptopropionat beobachtet. Diese Wechselwirkung wurde unabhängig durch Inhibitionsstudien verifiziert. Anschließend zeigte eine Gelfiltrationsanalyse die Reversibilität der Interaktionen. Insgesamt hat die vorliegende Arbeit unser Wissen über die biotechnologisch wichtigen DHAD-Enzyme erweitert.
Infobrief FBK 57/19
(2019)
Infobrief FBK 58/19
(2019)
Infobrief FBK 59/19
(2019)
The objective of current research on internal combustion engines
is to further reduce exhaust emissions while simultaneously
reducing fuel consumption. The resulting measures often mean
an increase in complexity of internal combustion engines, which
on one hand increases production cost and on the other hand
increases the susceptibility of the overall system to defects. It is
therefore necessary to develop technologies which can generate
an advantage for the consumer despite increasing complexity.
Within the scope of the project “High Efficiency Diesel Engine
Concept” (“Hocheffizientes Diesel-Motoren-Konzept” HDMK),
funded by the Federal Ministry of Economic Affairs and Energy
with TÜV Rheinland as project management organization
(funding code: 19U15003A), two engine concepts were
investigated and combined on a John Deere four-cylinder inline
engine.
On the one hand, a new cylinder activation concept ("3/4-
cylinder concept") was implemented with the aim of reducing
fuel consumption. On the other hand, a fully variable valve train
was developed for this engine, which both improves the
functionality of the 3/4-cylinder concept and can have a positive
influence on exhaust emissions through internal exhaust gas
recirculation.
A comparison of this engine concept with its series reference
based on measurement data showed a fuel economy advantage
of up to 5.2% in the low load field cycles of the DLG PowerMix.
The maximum fuel consumption benefit in the low load engine
regime exceeded 15% in some of the operating points.
As a final step, the engine was modified for the integration into
an existing and working tractor, maintaining the available
installation space of the powertrain.
Glycine constitutes the major neurotransmitter at inhibitory synapses of lower brain regions.
A rapid removal of glycine from the synaptic cleft and consequent recycling is crucial for
synaptic transmission in systems with high effort on temporal precision. This is mainly
achieved by glycine translocation via two glycine transporters (GlyTs), namely GlyT1 and
GlyT2. At inhibitory synapses, GlyT2 was found to be specifically expressed by neurons,
supplying the presynapse with glycine needed for vesicle filling. In contrast, GlyT1 is attributed
to astrocytes and primarily mediates the termination of synaptic transmission by glycine
removal from the synaptic cleft. Employing patch-clamp recordings from principal neurons of
the lateral superior olive (LSO) in acute brainstem slices of GlyT1b/c knockout (KO) mice and
wildtype (WT) littermates at postnatal day 20, I analyzed how postsynaptic responses are
changed in a GlyT1-depleted environment. During spontaneous vesicle release I found no
change of postsynaptic responses, contradicting my initial hypothesis of prolonged decay
times. Electrical stimulation of fibers of the medial nucleus of the trapezoid body (MNTB),
which are known to form fast, reliable and highly precise synapses with LSO principal neurons,
revealed that GlyT1 is involved in proper synaptic function during sustained, high frequent
synaptic transmission. Stimulation with 50 Hz led to a stronger decay time and latency
prolongation in GlyT1b/c KO, accelerating to 60% longer decay times and 30% longer latencies.
Additionally, a more pronounced frequency-dependent depression and fidelity decrease was
observed during stimulation with 200 Hz in GlyT1b/c KO, resulting in 67% smaller amplitudes
and only 25% of WT fidelity at the end of the challenge. Basic properties like readily releasable
pool, release probability, and quantal size (q) were not altered in GlyT1b/c KO, but
interestingly q decreased during 50 Hz and 100 Hz challenges to about 84%, which was not
observed in WT. I conclude that stronger accumulation of extracellular glycine due to GlyT1
loss leads to prolonged activation of postsynaptic glycine receptors (GlyRs). As a further
consequence, activation of presynaptic GlyRs in the vicinity of the synaptic cleft might be
enhanced, accompanied by a stronger occurrence of shunting inhibition. Furthermore, I
assume a GlyT1-dependent glycine shuttle, which is absent at GlyT1b/c KO synapses. This
could result in a diminished glycine supply to GlyT2 located at more distant sites, causing a
disturbed replenishment during periods with excess release of glycine. Conclusively, my study
reveals a contribution of astrocytes in fast and reliable synaptic transmission at the MNTB-LSO
synapse, which in turn is crucial for proper sound source localization.
Nachhaltigkeit und Digitalisierung sind zwei der großen Themen unserer
Zeit. In beiden Kontexten wird oft von Transformation gesprochen: Wirtschaft und Gesellschaft werden sich maßgeblich verändern. Deshalb sollten die beiden Trends Digitalisierung und Nachhaltigkeit zusammen betrachtet und ihre Zusammenhänge untersucht werden. Grundsätzlich
wird der Digitalisierung in der wissenschaftlichen Literatur ein Einfluss
auf die Erreichung einer nachhaltigen Zukunft attestiert – sowohl positiv
als auch negativ. Im Rahmen der Digitalisierungsforschung ist der Aspekt
der Nachhaltigkeit zumeist mehr Zusatz als Leitbild. Ob und inwiefern
eine digitale Transformation auch eine Nachhaltigkeitstransformation mit
sich bringt, bleibt in der Forschung also bisher weitestgehend unbeantwortet. Daher ist es unser Ziel, eine mögliche Wirkungskette aufzustellen,
die sowohl nachhaltigkeitsbezogene als auch Digitalisierungsaspekte vor
dem Hintergrund der Erreichung der Agenda 2030 integriert. Der Tenor
unserer Recherche: Digitalisierung wird von sich aus keine der großen
Nachhaltigkeitsherausforderungen lösen, sofern sie nicht in eine klare
Strategie eingebettet ist.
Using industrial robots for machining applications in flexible manufacturing
processes lacks a high accuracy. The main reason for the deviation is the
flexibility of the gearbox. Secondary Encoders (SE) as an additional, high precision
angle sensor offer a huge potential of detecting gearbox deviations. This paper
aims to use SE to reduce gearbox compliances with a feed forward, adaptive
neural control. The control network is trained with a second network for system
identification. The presented algorithm is capable of online application and optimizes
the robot accuracy in a nonlinear simulation.
Biological soil crusts (biocrusts) have been recognized as key ecological players in arid and semiarid regions at both local and global scales. They are important biodiversity components, provide critical ecosystem services, and strongly influence soil-plant relationships, and successional trajectories via facilitative, competitive, and edaphic engineering effects. Despite these important ecological roles, very little is known about biocrusts in seasonally dry tropical forests. Here we present a first baseline study on biocrust cover and ecosystem service provision in a human-modified landscape of the Brazilian Caatinga, South America's largest tropical dry forest. More specifically, we explored (1) across a network of 34 0.1 ha permanent plots the impact of disturbance, soil, precipitation, and vegetation-related parameters on biocrust cover in different stages of forest regeneration, and (2) the effect of disturbance on species composition, growth and soil organic carbon sequestration comparing early and late successional communities in two case study sites at opposite ends of the disturbance gradient. Our findings revealed that biocrusts are a conspicuous component of the Caatinga ecosystem with at least 50 different taxa of cyanobacteria, algae, lichens and bryophytes (cyanobacteria and bryophytes dominating) covering nearly 10% of the total land surface and doubling soil organic carbon content relative to bare topsoil. High litter cover, high disturbance by goats, and low soil compaction were the leading drivers for reduced biocrust cover, while precipitation was not associated Second-growth forests supported anequally spaced biocrust cover, while in old-growth-forests biocrust cover was patchy. Disturbance reduced biocrust growth by two thirds and carbon sequestration by half. In synthesis, biocrusts increase soil organic carbon (SOC) in dry forests and as they double the SOC content in disturbed areas, may be capable of counterbalancing disturbance-induced soil degradation in this ecosystem. As they fix and fertilize depauperated soils, they may play a substantial role in vegetation regeneration in the human-modified Caatinga, and may have an extended ecological role due to the ever-increasing human encroachment on natural landscapes. Even though biocrusts benefit from human presence in dry forests, high levels of anthropogenic disturbance could threaten biocrust-provided ecosystem services, and call for further, in-depth studies to elucidate the underlying mechanisms.
Was in der vorliegenden empirischen Analyse des Einzelfalls mit Blick auf eine umfassende organisationale Transformation als inhärent-emergenter Prozess beschrieben wird, ist gewiss ein Sonderfall: Nach dem Abbruch eines Beratungsprozesses treibt ein System seine Transformation autonom voran, ohne weitere Unterstützung einer Prozessberatung und stellt damit seine Selbstentwicklungsfähigkeit in einem transformativen Prozess der Organisationsentwicklung unter Beweis. Dies ist in der Organisationsentwicklung nicht die Regel und wird sehr wahrscheinlich auch nicht von anderen Organisationen als Modell aufgegriffen, auch nicht von Organisationen desselben Typs (familiengeführte mittelständische Organisationen). Dass ein Eintritt in eine radikale Transformation als autopoietischer Prozess wie hier überhaupt möglich ist, ist den spezifischen Eigenschaften einer Organisation und ihrer zentralen Entscheidungsakteure, besonderen, kontingent geprägten Ereignisketten sowie der aktuellen Konstellation der zweiten Führungsebene zuzuschreiben. Die hier vorgestellte Untersuchung entspricht daher einem „neuen und unbeschriebenen Fall“ (Hering/Jungmann, 2005: 621), einem „per se interessanten Fall“ (ebd.), der sich in keinen Forschungsstand einordnen lässt.
To exploit the whole potential of Additive Manufacturing (AM), a sound knowledge about the mechanical and especially cyclic properties of AM materials as well as their dependency on the process parameters is indispensable. In the presented work, the influence of chemical composition of the used powder on the fatigue behavior of Selectively Laser Melted (SLM) and Laser Deposition Welded (LDW) specimens made of austenitic stainless steel AISI 316L was investigated. Therefore, in each manufacturing process two variations of chemical composition of the used powder were utilized. For qualitative characterization of the materials cyclic deformation behavior, load increase tests (LITs) were performed and further used for the physically based lifetime calculation method (PhyBaLLIT), enabling an efficient determination of stress (S)–number of cycles to failure (Nf) curves (S–Nf), which show excellent correlation to additionally performed constant amplitude tests (CATs). Moreover, instrumented cyclic indentation tests (PhyBaLCHT) were utilized to characterize the materials’ defect tolerance in a comparably short time. All material variants exhibit a high influence of microstructural defects on the fatigue properties. Consequently, for the SLM process a higher fatigue lifetime at lower stress amplitudes could be observed for the batch with a higher defect tolerance, resulting from a more pronounced deformation induced austenite–α’-martensite transformation. In correspondence to that, the batch of LDW material with an increased defect tolerance exhibit a higher fatigue strength. However, the differences in defect tolerance between the LDW batches is only slightly influenced by phase transformation and seems to be mainly governed by differences in hardening potential of the austenitic microstructure. Furthermore, a significantly higher fatigue strength could be observed for SLM material in relation to LDW specimens, because of a refined microstructure and smaller microstructural defects of SLM specimens.
In this paper we present the results of the project “#Datenspende” where during the German election in 2017 more than 4000 people contributed their search results regarding keywords connected to the German election campaign.
Analyzing the donated result lists we prove, that the room for personalization of the search results is very small. Thus the opportunity for the effect mentioned in Eli Pariser’s filter bubble theory to occur in this data is also very small, to a degree that it is negligible. We achieved these results by applying various similarity measures to the result lists that were donated. The first approach using the number of common results as a similarity measure showed that the space for personalization is less than two results out of ten on average when searching for persons and at most four regarding the search for parties. Application of other, more specific measures show that the space is indeed smaller, so that the presence of filter bubbles is not evident.
Moreover this project is also a proof of concept, as it enables society to permanently monitor a search engine’s degree of personalization for any desired search terms. The general design can also be transferred to intermediaries, if appropriate APIs restrict selective access to contents relevant to the study in order to establish a similar degree of trustworthiness.
Faser-Kunststoff-Verbunde erfahren aufgrund ihrer guten gewichtsspezifischen mechanischen Kennwerte eine zunehmende Verbreitung in verschiedensten Anwendungsfeldern. Eine Voraussetzung für die Ausnutzung der Leichtbaupotenziale bei gleichzeitiger Begrenzung der Herstellkosten ist jedoch eine werkstoffgerechte Lasteinleitung durch geeignete Verbindungsverfahren.
Gegenstand dieser Arbeit ist die Untersuchung eines Ansatzes zur Herstellung von Strukturen aus Faser-Kunststoff-Verbund durch eine getrennte Herstellung von teilausgehärteten Substrukturen mit anschließender Verbindung durch gemeinsame Vollaushärtung. Zur umfassenden Analyse der Prozessfenster und Potenziale werden zunächst am Beispiel eines faserverstärkten Werkstoffes auf Epoxidharzbasis die wichtigsten Zustands- und Eigenschaftsänderungen während der Vernetzung des Matrixharzes charakterisiert. Als Resultat dieser Analysen können die Entwicklung des Aushärtegrads bei verschiedener Temperaturführung im Aushärteprozess sowie die grundlegenden mechanischen Eigenschaften von Matrixwerkstoff und Verbund bei verschiedenen Aushärtegraden quantifiziert werden.
Aufbauend auf diesen Ergebnissen werden anhand experimenteller Untersuchungen an durch gemeinsame Aushärtung hergestellten Laminaten die Verbindungseigenschaften in Abhängigkeit von unterschiedlichen Einflussfaktoren ermittelt. Für die zwei Prozessvarianten Autoklavprozess und Resin Transfer Molding (RTM) wird die Energiefreisetzungsrate unter Mode I-Belastung bei Variation des Aushärtegrads der zu verbindenden Laminate analysiert. Die Variation der Verbindungseigenschaften wird anhand von rasterelektronenmikroskopischen Untersuchungen der Bruchfläche erklärt. Weiterhin wird der Einfluss der Oberflächeneigenschaften durch Anwendung verschiedener Vorbehandlungen analysiert. Die Oberflächeneigenschaften Oberflächenspannung, Topografie und chemische Zusammensetzung werden gemessen und hinsichtlich ihrer Prognosefähigkeit für die Verbindungseigenschaften diskutiert.
Zur Demonstration der Umsetzbarkeit der Herstellmethode auf Bauteilebene werden für den Einsatz im Luftfahrtbereich typische Details hergestellt und mechanisch geprüft. Die Eigenschaften der in der hier untersuchten Methodik hergestellten Details zeigen nur geringe Abweichungen im Vergleich zu denen der Referenzmethode.
Micronuclei-based model system reveals functional consequences of chromothripsis in human cells
(2019)
Cancer cells often harbor chromosomes in abnormal numbers and with aberrant structure. The consequences of these chromosomal aberrations are difficult to study in cancer, and therefore several model systems have been developed in recent years. We show that human cells with extra chromosome engineered via microcell-mediated chromosome transfer often gain massive chromosomal rearrangements. The rearrangements arose by chromosome shattering and rejoining as well as by replication-dependent mechanisms. We show that the isolated micronuclei lack functional lamin B1 and become prone to envelope rupture, which leads to DNA damage and aberrant replication. The presence of functional lamin B1 partly correlates with micronuclei size, suggesting that the proper assembly of nuclear envelope might be sensitive to membrane curvature. The chromosomal rearrangements in trisomic cells provide growth advantage compared to cells without rearrangements. Our model system enables to study mechanisms of massive chromosomal rearrangements of any chromosome and their consequences in human cells.
Functional Metallic Microcomponents via Liquid-Phase Multiphoton Direct Laser Writing: A Review
(2019)
We present an overview of functional metallic microstructures fabricated via direct laser writing out of the liquid phase. Metallic microstructures often are key components in diverse applications such as, e.g., microelectromechanical systems (MEMS). Since the metallic component’s functionality mostly depends on other components, a technology that enables on-chip fabrication of these metal structures is highly desirable. Direct laser writing via multiphoton absorption is such a fabrication method. In the past, it has mostly been used to fabricate multidimensional polymeric structures. However, during the last few years different groups have put effort into the development of novel photosensitive materials that enable fabrication of metallic—especially gold and silver—microstructures. The results of these efforts are summarized in this review and show that direct laser fabrication of metallic microstructures has reached the level of applicability.
Congress Report 2019.9-11
(2019)
A distributional solution framework is developed for systems consisting of linear hyperbolic partial differential equations (PDEs) and switched differential algebraic equations (DAEs) which are coupled via boundary conditions. The unique solvability is then characterize in terms of a switched delay DAE. The theory is illustrated with an example of electric power lines modeled by the telegraph equations which are coupled via a switching transformer where simulations confirm the predicted impulsive solutions.
In recent years, the Federal Republic of Germany has been the most significant destination for asylum-related migration in the European Union. Asylum-related migrants are those who left their country of origin to search for better life in a country that is safe and usually provides better economic opportunities. Most of these migrants sought asylum; however, not all needed international protection. There is a continuum between forced and voluntary migration and the categorization and categories of migrants are very context-dependent. The main research questions in this research report are the following: 1. What kinds of asylum-related migrants (refugees, people with a temporary residence permit, asylum seekers, non-deportable former asylum seekers and undocumented migrants) live in Germany, in particular in Rhineland-Palatinate and Kaiserslautern? 2. What are the everyday lives of asylum-related migrants like in Rhineland-Palatinate and Kaiserslautern? 3. What are the migration wishes and plans of asylum-related migrants in Rhineland-Palatinate and Kaiserslautern? 4. How and for what reasons do asylum-related migrants in Rhineland-Palatinate and Kaiserslautern use the Internet and social media? The research questions are answered based on the empirical material collected during the field research in the spring and summer of 2019. In addition, earlier research and statistics on migrants, asylum seekers and refugees in Germany are utilized. Asylum-related migrants responded according to their own views; the results indicate both their perspectives and our interpretation of them.
Eine Maturaschule ist eine private Bildungseinrichtung, in der Menschen darauf vorbereitet werden, ihre Matura, das österreichische Pendant zum Abitur, nachzuholen. Maturaschulen, die auf externe Prüfungen vorbereiten, verfügen üblicherweise weder über die Möglichkeit, offizielle Noten zu geben, noch Anwesenheit einzufordern. Die Gegebenheiten einer Maturaschule sind somit nicht nur vorteilhaft hinsichtlich eines guten Schulklimas mit partnerschaftlichen Lehrer-Schüler-Beziehungen. Im Zusammenhang mit zu wenig Eigenverantwortlichkeit der Lernenden können diese Gegebenheiten durchaus problematisch sein.
The Atacama Desert is one of the driest and probably oldest deserts on Earth where only a few extremophile organisms are able to survive. This study investigated two terricolous and two epiphytic lichens from the fog oasis “Las Lomitas” within the National Park Pan de Azúcar which represents a refugium for a few vascular desert plants and many lichens that can thrive on fog and dew alone. Ecophysiological measurements and climate records were combined with molecular data of the mycobiont, their green algal photobionts and lichenicolous fungi to gain information about the ecology of lichens within the fog oasis. Phylogenetic and morphological investigations led to the identification and description of the new lichen species Acarospora conafii sp. nov. as well as the lichenicolous fungi that accompanied them and revealed the trebouxioid character of all lichen photobionts. Their photosynthetic responses were compared during natural scenarios such as reactivation by high air humidity and in situ fog events to elucidate the activation strategies of this lichen community. Epiphytic lichens showed photosynthetic activity that was rapidly induced by fog and high relative air humidity whereas terricolous lichens were only activated by fog.
Regulation of metabolism is complex and involves enzymes and membrane transporters, which form networks to support energy dynamics. Lactate, as a metabolic intermediate from glucose or glycogen breakdown, appears to play a major role as additional energetic substrate, which is shuttled between glycolytic and oxidative cells, both under hypoxic and normoxic conditions. Transport of lactate across the cell membrane is mediated by monocarboxylate transporters (MCTs) in cotransport with H+, which is a substrate, a signal and a modulator of metabolic processes. MCTs form a “transport metabolon” with carbonic anhydrases (CAs), which not only provide a rapid equilibrium between CO2, HCO3– and H+, but, in addition, enhances lactate transport, as found in Xenopus oocytes, employed as heterologous expression system, as well as in astrocytes and cancer cells. Functional interactions between different CA isoforms and MCTs have been found to be isoform-specific, independent of the enzyme’s catalytic activity, and they require physical interaction between the proteins. CAs mediate between different states of metabolic acidosis, induced by glycolysis and oxidative phosphorylation, and play a relay function in coupling pH regulation and metabolism. In the brain, metabolic processes in astrocytes appear to be linked to bicarbonate transport and to neuronal activity. Here, we focus on physiological processes of energy dynamics in astrocytes as well as on the transfer of energetic substrates to neurons.
Erprobung und Evaluation des Zertifikatskurses: Beraten, Informieren und Schulen in der Pflege
(2019)
Dieser Arbeits- und Forschungsbericht skizziert die Erprobung und beschreibt die Evaluationsergebnisse
des wissenschaftlichen Zertifikatskurses „Beraten, Informieren und Schulen in der
Pflege“. Der Kurs wurde im Wintersemester 2018/19 an der Hochschule für Wirtschaft und
Gesellschaft Ludwigshafen teilerprobt und durch Mitarbeitende des Teilprojektes E-hoch-B – „Pflege
und Gesundheit“ begleitet und evaluiert. Ziel war es, die soziodemografischen Merkmale sowie
bildungs- und berufsbiografischen Kennzeichen der Teilnehmenden des Zertifikatskurses herauszuarbeiten.
Weiterhin sollte festgehalten werden, wie die Teilnehmenden den Zertifikatskurs
erlebt haben und welche Handlungsempfehlungen für die Weiterentwicklung und
Verstetigung des Kurses abgeleitet werden können. Die Zielgruppe für das evidenzbasierte
Bildungsangebot waren berufserfahrene Pflegefachpersonen aus der ambulanten
Gesundheitsversorgung. Es sind qualitative Fokusgruppeninterviews durchgeführt worden, die
durch Fragebögen flankiert wurden.
Dieser Arbeits- und Forschungsbericht skizziert die Erprobung des wissenschaftlichen Zertifikatskurses
Ethik und Recht in gemeindenaher Gesundheitsversorgung und beschreibt die
Evaluationsergebnisse. Die Zielgruppe für das Bildungsangebot waren berufserfahrene
Pflegefachpersonen aus der ambulanten Gesundheitsversorgung. Der Kurs wurde im Sommersemester
2019 an der Hochschule für Wirtschaft und Gesellschaft Ludwigshafen erprobt
und durch Mitarbeitende des Teilprojektes E-hoch-B – Pflege und Gesundheit begleitet und evaluiert.
Die Evaluation erfolgte qualitativ durch Fokusgruppeninterviews und quantitativ durch Fragebögen.
Ziel war es, die soziodemografischen Merkmale sowie bildungs- und berufsbiografischen
Kennzeichen der Teilnehmenden des Zertifikatskurses herauszuarbeiten. Weiterhin
sollte festgehalten werden, wie die Teilnehmenden den Zertifikatskurs erlebt haben und welche
Handlungsempfehlungen für die Weiterentwicklung und Verstetigung des Kurses abgeleitet
werden können.
Dieser Arbeits- und Forschungsbericht skizziert die Erprobung und beschreibt die Evaluationsergebnisse des wissenschaftlichen Zertifikatskurses „Versorgungsstrategien und psychosoziale Unterstützung für ein Leben mit Demenz zu Hause“. Der Kurs wurde im Wintersemester 2018/19 an der Hochschule für Wirtschaft und Gesellschaft Ludwigshafen erprobt und durch Mitarbeitende des Teilprojektes E-hoch-B – „Pflege und Gesundheit“ begleitet und evaluiert. Ziel war es, die soziodemografischen Merkmale sowie bildungs- und berufsbiografischen Kennzeichen der Teilnehmenden des Zertifikatskurses herauszuarbeiten. Weiterhin sollte festgehalten werden, wie die Teilnehmenden den Zertifikatskurs erleben und welche Handlungsempfehlungen für die Weiterentwicklung und Verstetigung des Kurses abgeleitet werden können. Die Zielgruppe für das evidenzbasierte Bildungsangebot waren berufserfahrene Pflegefachpersonen aus der ambulanten Gesundheitsversorgung. Es sind qualitative Fokusgruppeninterviews durchgeführt worden, die durch Fragebögen flankiert wurden.
Dieser Arbeits- und Forschungsbericht beschreibt die Begleitung und Analyse des neu eingerichteten
berufsbegleitenden Bachelorstudiengangs Industriepharmazie. Der Studiengang
startete im Sommersemester 2018 an der Hochschule Kaiserslautern und wurde in dessen
ersten Semester durch Mitarbeitende des Teilprojektteams E-hoch-B – Entwicklung durch Bildung
begleitet und evaluiert. Ziel war es, Erkenntnisse und Verbesserungsvorschläge zur Sicherung
der Qualität des Studiums zu gewinnen und diese in Zusammenarbeit mit dem Fachbereich
Angewandte Logistik- und Polymerwissenschaften umzusetzen. Zur Definition der Zielgruppe
der berufsbegleitend Studierenden und deren Wahrnehmung des Studiums wurden qualitative
Einzelinterviews durchgeführt, welche durch einen Fragebogen ergänzt wurden. Aus den gewonnenen
Ergebnissen lassen sich auch für zukünftige Entwicklungen berufsbegleitender Studienangebote
wichtige Erkenntnisse und Maßnahmen ableiten.
Eine große Bandbreite tribologisch belasteter Bauteile kann durch Verwendung einer Oberflächenbeschichtung verbessert werden. Mit Beschichtungswerkstoffen aus Hochleistungspolymeren und funktionellen Füllstoffen lassen sich in tribologischen Systemen niedrige Reib- und Verschleißwerte realisieren.
Diese Arbeit zielt auf die Entwicklung von PBI (Polybenzimidazol)-Hochleitungsbeschichtungen für den Einsatz in tribologisch beanspruchten Systemen ab. Die gewonnenen Erkenntnisse ergänzen die bislang unzureichend beschriebenen bzw. erforschten Prozesse zur Herstellung von PBI-basierten Beschichtungen. Als Matrixmaterialien werden PBI sowie PAI (Polyamidimid) als Referenzsystem untersucht. Eine systematische Entwicklung von Lösungsprozessen bildet dabei das erste Prozessfenster zur Herstellung von gelöstem und flüssig verarbeitbarem PBI.
Die Entwicklung der Temperprozesse, basierend auf thermischen Analysen mittels dynamischen Differenzkalorimetrie (DSC), stellt in dieser Arbeit ein weiteres Prozessfenster der Beschichtungsherstellung dar. Die daraus resultierenden ungefüllten PBI-Schichten (ohne Füllstoffe) werden systematischen Untersuchungen unterzogen. Thermische Untersuchungen, wie Thermogravimetrie (TGA), die dynamisch-mechanisch-thermische Analyse (DMTA) sowie DSC-Messungen, veranschaulichen die hohe Temperaturbeständigkeit und damit ein breites Temperatureinsatzfenster der PBI-Beschichtungen.
Tribologische Untersuchungsergebnisse, insbesondere der Gleitverschleißprüfungen an ungefüllten PBI-Beschichtungen, stellen dessen hervorragende tribologische Leistungsfähigkeit im Vergleich zu den am Markt etablierten PAI-Systemen dar. Begleitend zu tribologischen Analysen werden mechanische, thermische und strukturelle Untersuchungen durchgeführt und miteinander in Korrelation gebracht.Die Herstellung von PBI-PAI-Blends und die anschließenden tribologischen, mechanischen, thermischen und strukturellen Untersuchungen zeigen das Verbesserungspotential eines PAI-Systems durch die Zugabe von PBI-Anteilen. Die Ergebnisse zeigten, dass es möglich ist, ein PAI-System durch die Zugabe von PBI-Anteilen den speziellen Anwendungen entsprechend anzupassen.
Die Modifizierung der PBI-Beschichtungen mit Füllstoffen wie Graphit, PTFE usw. sowie deren Bewertung anhand von Gleitverschleißuntersuchungen, bei Variation der Prüfparameter, ermöglichen einen direkten Vergleich mit marktetablierten PAI-Beschichtungscompound und einem kommerziell erhältlichen PBI-Halbzeug. Die ermittelten Messwerte verdeutlichen hierbei das Potential (Verschleißwiderstand, thermische Stabilität) von PBI-Beschichtungen in tribologisch hoch belasteten Systemen.
Zur Verbesserung der Abrasivbeständigkeit werden die PBI-Beschichtungen mit harten Titancarbid-Partikeln verstärkt. Eine systematische Untersuchung der Abrasion sowie ein Modell zur Vorhersage des Abrasivverschleißes werden erarbeitet.
A wide range of tribologically stressed components can be improved by using a surface coating. Coatings based on high-performance polymers and functional fillers lead to low friction and wear in tribological systems.
The objective of this work is the development of high performance coatings based on polybenzimidazole for tribologically stressed systems. The investigations should complete the inadequately described or researched processes for the production of PBI-based coatings. The matrix materials investigated are PBI and PAI (reference system). The systematic development of solution processes represents the first process window for the production of dissolved and liquid processable PBI.
The development of annealing processes, based on thermal analyzes (DSC), represents an additional process window of coating production in this work. The resulting pure PBI coatings (without fillers) are subjected to systematic investigations. Thermal characterizations such as Thermogravimetry (TGA), Dynamic Mechanical Thermal Analysis (DMTA) and Differential Scanning Calorimetry (DSC) measurements demonstrate the high temperature resistance and a wide temperature range of PBI coatings.
Tribological test results, in particular the sliding wear tests on pure PBI coatings, show their outstanding tribological performance in comparison to the PAI systems established on the market. Accompanying to tribological analyzes, mechanical, thermal and structural investigations are carried out and correlated with each other.
The preparation of PBI-PAI blends and the subsequent tribological, mechanical, thermal and structural investigations show the potential for improvement of a PAI system by the addition of PBI fractions. The possibility of adapting a PAI system to the relevant applications by adding PBI fractions to reduce the high material costs of the PBI polymer is presented in this work.
The modification of the PBI coatings with fillers such as graphite, PTFE, etc. as well as the subsequent sliding wear tests, with variation of the test parameters (pressure and
velocity-variation), allow a direct comparison with the market-established PAI coating compound and a commercially available PBI bulk material. The measured values illustrate the suitability of PBI coatings for tribologically highly loaded systems.
To improve the abrasion resistance, the PBI coatings are reinforced with hard titanium carbide particles. Systematic investigations on the abrasion wear as well as a model for the prediction of the abrasive wear are developed.
Green Innovation Areas have been developed in the US context of urban development in order to jump-start innovative solutions in abandoned areas. Prospective types of uses in these areas are not predetermined, but should be experimental and innovative. So far they can comprise vast greenhouse uses to less extensive clover fields, but their potential is not yet fully discovered. Implementing new and innovative economic uses in urban areas is relatively new in research for urban areas, in particular, when development types like bioeconomy are implemented. The joint German–Mexican research presented in this article aims at exploring the use of vacant inner urban spaces as Green Innovation Areas—discussing their potentials for sustainable development of shrinking cities.
Private data analytics systems preferably provide required analytic accuracy to analysts and specified privacy to individuals whose data is analyzed. Devising a general system that works for a broad range of datasets and analytic scenarios has proven to be difficult.
Despite the advent of differentially private systems with proven formal privacy guarantees, industry still uses inferior ad-hoc mechanisms that provide better analytic accuracy. Differentially private mechanisms often need to add large amounts of noise to statistical results, which impairs their usability.
In my thesis I follow two approaches to improve the usability of private data analytics systems in general and differentially private systems in particular. First, I revisit ad-hoc mechanisms and explore the possibilities of systems that do not provide Differential Privacy or only a weak version thereof. Based on an attack analysis I devise a set of new protection mechanisms including Query Based Bookkeeping (QBB). In contrast to previous systems QBB only requires the history of analysts’ queries in order to provide privacy protection. In particular, QBB does not require knowledge about the protected individuals’ data.
In my second approach I use the insights gained with QBB to propose UniTraX, the first differentially private analytics system that allows to analyze part of a protected dataset without affecting the other parts and without giving up on accuracy. I show UniTraX’s usability by way of multiple case studies on real-world datasets across different domains. UniTraX allows more queries than previous differentially private data analytics systems at moderate runtime overheads.
Model uncertainty is a challenge that is inherent in many applications of mathematical models in various areas, for instance in mathematical finance and stochastic control. Optimization procedures in general take place under a particular model. This model, however, might be misspecified due to statistical estimation errors and incomplete information. In that sense, any specified model must be understood as an approximation of the unknown "true" model. Difficulties arise since a strategy which is optimal under the approximating model might perform rather bad in the true model. A natural way to deal with model uncertainty is to consider worst-case optimization.
The optimization problems that we are interested in are utility maximization problems in continuous-time financial markets. It is well known that drift parameters in such markets are notoriously difficult to estimate. To obtain strategies that are robust with respect to a possible misspecification of the drift we consider a worst-case utility maximization problem with ellipsoidal uncertainty sets for the drift parameter and with a constraint on the strategies that prevents a pure bond investment.
By a dual approach we derive an explicit representation of the optimal strategy and prove a minimax theorem. This enables us to show that the optimal strategy converges to a generalized uniform diversification strategy as uncertainty increases.
To come up with a reasonable uncertainty set, investors can use filtering techniques to estimate the drift of asset returns based on return observations as well as external sources of information, so-called expert opinions. In a Black-Scholes type financial market with a Gaussian drift process we investigate the asymptotic behavior of the filter as the frequency of expert opinions tends to infinity. We derive limit theorems stating that the information obtained from observing the discrete-time expert opinions is asymptotically the same as that from observing a certain diffusion process which can be interpreted as a continuous-time expert. Our convergence results carry over to convergence of the value function in a portfolio optimization problem with logarithmic utility.
Lastly, we use our observations about how expert opinions improve drift estimates for our robust utility maximization problem. We show that our duality approach carries over to a financial market with non-constant drift and time-dependence in the uncertainty set. A time-dependent uncertainty set can then be defined based on a generic filter. We apply this to various investor filtrations and investigate which effect expert opinions have on the robust strategies.
In cyanobacteria and plants, VIPP1 plays crucial roles in the biogenesis and repair of thylakoid membrane protein complexes and in coping with chloroplast membrane stress. In chloroplasts, VIPP1 localizes in distinct patterns at or close to envelope and thylakoid membranes. In vitro, VIPP1 forms higher-order oligomers of >1 MDa that organize into rings and rods. However, it remains unknown how VIPP1 oligomerization is related to function. Using time-resolved fluorescence anisotropy and sucrose density gradient centrifugation, we show here that Chlamydomonas reinhardtii VIPP1 binds strongly to liposomal membranes containing phosphatidylinositol-4-phosphate (PI4P). Cryo-electron tomography reveals that VIPP1 oligomerizes into rods that can engulf liposomal membranes containing PI4P. These findings place VIPP1 into a group of membrane-shaping proteins including epsin and BAR domain proteins. Moreover, they point to a potential role of phosphatidylinositols in directing the shaping of chloroplast membranes.
Patients after total hip arthroplasty (THA) suffer from lingering musculoskeletal restrictions. Three-dimensional (3D) gait analysis in combination with machine-learning approaches is used to detect these impairments. In this work, features from the 3D gait kinematics, spatio temporal parameters (Set 1) and joint angles (Set 2), of an inertial sensor (IMU) system are proposed as an input for a support vector machine (SVM) model, to differentiate impaired and non-impaired gait. The features were divided into two subsets. The IMU-based features were validated against an optical motion capture (OMC) system by means of 20 patients after THA and a healthy control group of 24 subjects. Then the SVM model was trained on both subsets. The validation of the IMU system-based kinematic features revealed root mean squared errors in the joint kinematics from 0.24° to 1.25°. The validity of the spatio-temporal gait parameters (STP) revealed a similarly high accuracy. The SVM models based on IMU data showed an accuracy of 87.2% (Set 1) and 97.0% (Set 2). The current work presents valid IMU-based features, employed in an SVM model for the classification of the gait of patients after THA and a healthy control. The study reveals that the features of Set 2 are more significant concerning the classification problem. The present IMU system proves its potential to provide accurate features for the incorporation in a mobile gait-feedback system for patients after THA.
Anisotropy of tracer-coupled networks is a hallmark in many brain regions. In the past, the topography of these networks was analyzed using various approaches, which focused on different aspects, e.g., position, tracer signal, or direction of coupled cells. Here, we developed a vector-based method to analyze the extent and preferential direction of tracer spreading. As a model region, we chose the lateral superior olive—a nucleus that exhibits specialized network topography. In acute slices, sulforhodamine 101-positive astrocytes were patch-clamped and dialyzed with the GJ-permeable tracer neurobiotin, which was subsequently labeled with avidin alexa fluor 488. A predetermined threshold was used to differentiate between tracer-coupled and tracer-uncoupled cells. Tracer extent was calculated from the vector means of tracer-coupled cells in four 90° sectors. We then computed the preferential direction using a rotating coordinate system and post hoc fitting of these results with a sinusoidal function. The new method allows for an objective analysis of tracer spreading that provides information about shape and orientation of GJ networks. We expect this approach to become a vital tool for the analysis of coupling anisotropy in many brain regions
IoT systems consist of Hardware/Software systems (e.g., sensors) that are embedded in a physical world, networked and that interact with complex software platforms. The validation of such systems is a challenge and currently mostly done by prototypes. This paper presents the virtual environment for simulation, emulation and validation of an IoT platform and its semantic model in real life scenarios. It is based on a decentralized, bottom up approach that offers interoperability of IoT devices and the value-added services they want to use across different domains. The framework is demonstrated by a comprehensive case study. The example consists of the complete IoT “Smart Energy” use case with focus on data privacy by homomorphic encryption. The performance of the network is compared while using partially homomorphic encryption, fully homomorphic encryption and no encryption at all.As a major result, we found that our framework is capable of simulating big IoT networks and the overhead introduced by homomorphic encryption is feasible for VICINITY.
Passive graduated filters with fixed absorption profile are currently used in image recording to avoid overexposure. However, a whole set of filters with prescribed gradients is required to cope with changing illumination conditions. Furthermore, they demand mechanical adjustment during operation. To overcome these deficiencies we present a microfabricated active electrochromic graduated filter which combines multiple functionalities: The overall absorbance, the position of medium transmission as well as the magnitude of its gradient can be tuned continuously by electrical means. Live image control is possible using low operation voltages in the range of ±2 V to reach a high change in optical density ΔOD of 1.01 (400 nm to 780 nm) with a coloration and bleaching time 1.3 s and 0.2 s, respectively. Owing to their low volume and power consumption they are suitable for widespread applications like in smartphones, surveillance cameras or microscopes.
The structural integrity of synaptic connections critically depends on the interaction between synaptic cell adhesion molecules (CAMs) and the underlying actin and microtubule cytoskeleton. This interaction is mediated by giant Ankyrins, that act as specialized adaptors to establish and maintain axonal and synaptic compartments. In Drosophila, two giant isoforms of Ankyrin2 (Ank2) control synapse stability and organization at the larval neuromuscular junction (NMJ). Both Ank2-L and Ank2-XL are highly abundant in motoneuron axons and within the presynaptic terminal, where they control synaptic CAMs distribution and organization of microtubules. Here, we address the role of the conserved N-terminal ankyrin repeat domain (ARD) for subcellular localization and function of these giant Ankyrins in vivo. We used a P[acman] based rescue approach to generate deletions of ARD subdomains, that contain putative binding sites of interacting transmembrane proteins. We show that specific subdomains control synaptic but not axonal localization of Ank2-L. These domains contain binding sites to L1-family member CAMs, and we demonstrate that these regions are necessary for the organization of synaptic CAMs and for the control of synaptic stability. In contrast, presynaptic Ank2-XL localization only partially depends on the ARD but strictly requires the presynaptic presence of Ank2-L demonstrating a critical co-dependence of the two isoforms at the NMJ. Ank2-XL dependent control of microtubule organization correlates with presynaptic abundance of the protein and is thus only partially affected by ARD deletions. Together, our data provides novel insights into the synaptic targeting of giant Ankyrins with relevance for the control of synaptic plasticity and maintenance.
Although for photon Bose–Einstein condensates the main mechanism of the observed photon–photon interaction has already been identified to be of a thermo-optic nature, its influence on the condensate dynamics is still unknown. Here a mean-field description of this effect is derived, which consists of an open-dissipative Schrödinger equation for the condensate wave function coupled to a diffusion equation for the temperature of the dye solution. With this system at hand, the lowest-lying collective modes of a harmonically trapped photon Bose–Einstein condensate are calculated analytically via a linear stability analysis. As a result, the collective frequencies and, thus, the strength of the effective photon–photon interaction turn out to strongly depend on the thermal diffusion in the cavity mirrors. In particular, a breakdown of the Kohn theorem is predicted, i.e. the frequency of the centre-of-mass oscillation is reduced due to the thermo-optic photon–photon interaction.
Low damping magnetic properties and perpendicular magnetic anisotropy in the Heusler alloy Fe1.5CoGe
(2019)
We present a study of the dynamic magnetic properties of TiN-buffered epitaxial thin films of the Heusler alloy Fe1.5CoGe. Thickness series annealed at different temperatures are prepared and the magnetic damping is measured, a lowest value of α = 2.18 × 10−3 is obtained. The perpendicular magnetic anisotropy properties in Fe1.5CoGe/MgO are also characterized. The evolution of the interfacial perpendicular anisotropy constant K⊥S with the annealing temperature is shown and compared with the widely used CoFeB/MgO interface. A large volume contribution to the perpendicular anisotropy of (4.3 ± 0.5) × 105 J/m3 is also found, in contrast with vanishing bulk contribution in common Co- and Fe-based Heusler alloys.
The importance of well trained and stable neck flexors and extensors as well as trunk muscles for intentional headers in soccer is increasingly discussed. The neck flexors and extensors should ensure a coupling of trunk and head at the time of ball contact to increase the physical mass hitting the ball and reduce head acceleration. The aim of the study was to analyze the influence of a 6-week strength training program (neck flexors, neck extensors) on the acceleration of the head during standing, jumping and running headers as well as after fatigue of the trunk muscles on a pendulum header. A total of 33 active male soccer players (20.3 ± 3.6 years, 1.81 ± 0.07 m, 75.5 ± 8.3 kg) participated and formed two training intervention groups (IG1: independent adult team, IG2: independent youth team) and one control group (CG: players from different teams). The training intervention consisted of three exercises for the neck flexors and extensors. The training effects were verified by means of the isometric maximum voluntary contraction (IMVC) measured by a telemetric Noraxon DTS force sensor. The head acceleration during ball contact was determined using a telemetric Noraxon DTS 3D accelerometer. There was no significant change of the IMVC over time between the groups (F=2.265, p=.121). Head acceleration was not reduced significantly for standing (IG1 0.4 ± 2.0, IG2 0.1 ± 1.4, CG -0.4 ± 1.2; F = 0.796, p = 0.460), jumping (IG1-0.7 ± 1.4, IG2-0.2 ± 0.9, CG 0.1 ± 1.2; F = 1.272, p = 0.295) and running (IG1-1.0 ± 1.9, IG2-0.2 ± 1.4, CG -0.1 ± 1.6; F = 1.050, p = 0.362) headers as well as after fatigue of the trunk musculature for post-jumping (IG1-0.2 ± 2.1, IG2-0.6 ± 1.4; CG -0.6 ± 1.3; F = 0.184, p = 0.833) and post-running (IG1-0.3 ± 1.6, IG2-0.7 ± 1.2, CG 0.0 ± 1.4; F = 0.695, p = 0.507) headers over time between IG1, IG2 and CG. A 6-week strength training of the neck flexors and neck extensors could not show the presumed preventive benefit. Both the effects of a training intervention and the consequences of an effective intervention for the acceleration of the head while heading seem to be more complex than previously assumed and presumably only come into effect in case of strong impacts.
Key words: Heading, kinetics, head-neck-torso-alignment, neck musculature, repetitive head impacts, concussion
Die räumliche Planung begegnet häufig Herausforderungen, zu deren Bewältigung nicht auf existierendes Wissen zurückgegriffen werden kann. Um neuartiges Wissen zu erzielen, werden insbesondere Modellvorhaben – kleinmaßstäbliche, befristete reale Feldexperimente – als Instrument eingesetzt. Diese zielen darauf ab, wiederverwendbares Wissen reproduzierbar zu erzeugen. Im Rahmen eines Modellvorhabens werden in verschiedenen Modellräumen vielfältige innovative Projekte initiiert, über einen festen Zeitraum umgesetzt sowie bewertet. Akademische oder private Institutionen begleiten Modellvorhaben wissenschaftlich, um allgemeingültige und übertragbare Erkenntnisse zu identifizieren. Die Ergebnisse dieser umfassenden Evaluation werden in einem Abschlussbericht dokumentiert. Erfahrungen zeigen allerdings, dass dies zur Verteilung der Ergebnisse nicht ausreicht, um die Nutzung und Wiederverwendung der in Modellvorhaben generierten Erkenntnisse sicherzustellen. Dies liegt insbesondere daran, dass die Abschlussberichte zu wenig anwendungsorientiert und zu umfangreich sind. So ist der Vergleich zwischen vorhandenen Berichten und einem laufenden Modellvorhaben mit einem zu hohen Aufwand verbunden, wodurch sich ein unausgeglichenes Aufwand-Ertrag-Verhältnis ergibt. Somit wird das Lernen aus Modellvorhaben erschwert.
Um eine effektive und effiziente Dissemination und Verstetigung sowie Wiederverwendbarkeit von Wissen generiert in Modellvorhaben zu erzielen, wurde im Rahmen der vorliegenden Forschungsarbeit ein Modell entwickelt. In einem ersten Schritt wurde für die Analyse von Modellvorhaben eine allgemeingültige Struktur geschaffen, die mit dem generellen Ablauf eines Projekts im Rahmen des Projektmanagements vergleichbar ist. Diese Struktur reduziert den Aufwand Erkenntnisse und Wissen jeweils für die folgenden hier definierten Phasen zu nutzen: Identifikation einer neuen Herausforderung; Projektaufruf; Bewerbungen der möglichen Teilnehmer; Bewertungen der Bewerbungen durch den Initiator; Durchführung; Auswertung; Dissemination, Transfer und Verstetigung.
Im nächsten Schritt wurde in die einzelnen Phasen eines Modellvorhabens ein Wissensmanagementprozess – die Bausteine Wissensziele, -identifikation, -erwerb, - entwicklung, -bewertung, -bewahrung, -(ver)teilung und -nutzung – integriert, um die gemeinsame Nutzungseinheit vom umfassenden Abschlussbericht auf kleinere, in sich abgeschlossene Informationseinheiten zu reduzieren. Auf diese Weise wird der Aufwand für die Identifikation, den Erwerb und die Nutzung von Wissen verringert. Am Ende jeder Phase wird eine Bewertung durchgeführt sowie das erzielte Wissen effizient geteilt. Dafür ist eine systematische Interaktion zwischen Akteuren von Modellvorhaben und eine zentrale Sammlung des Wissens notwendig. Ein wesentliches Ergebnis dieser Arbeit ist die Entwicklung einer neuartigen Austauschinfrastruktur, die das generierte Wissen einerseits bewahrt und andererseits systematisch verteilt. Dadurch kann bereits im Verlauf eines Modellvorhabens gewonnenes Wissen ausgetauscht und wiederverwendet werden, sodass
die Phase der Dissemination, Transfer und Verstetigung in den Prozess verschoben wird. Die Infrastruktur soll frei zugänglich sein und nutzerfreundlich gestaltet werden.
Durch das entwickelte Modell wird eine effektive und effiziente Wiederverwendung von Wissen generiert in Modellvorhaben ermöglicht sowie eine belastbare Grundlage für neue Projekte in der räumlichen Planung geschaffen.
Using molecular dynamics simulation, we study nanoindentation in large samples of Cu–Zr glass at various temperatures between zero and the glass transition temperature. We find that besides the elastic modulus, the yielding point also strongly (by around 50%) decreases with increasing temperature; this behavior is in qualitative agreement with predictions of the cooperative shear model. Shear-transformation zones (STZs) show up in increasing sizes at low temperatures, leading to shear-band activity. Cluster analysis of the STZs exhibits a power-law behavior in the statistics of STZ sizes. We find strong plastic activity also during the unloading phase; it shows up both in the deactivation of previous plastic zones and the appearance of new zones, leading to the observation of pop-outs. The statistics of STZs occurring during unloading show that they operate in a similar nature as the STZs found during loading. For both cases, loading and unloading, we find the statistics of STZs to be related to directed percolation. Material hardness shows a weak strain-rate dependence, confirming previously reported experimental findings; the number of pop-ins is reduced at slower indentation rate. Analysis of the dependence of our simulation results on the quench rate applied during preparation of the glass shows only a minor effect on the properties of STZs.
Adsorption and Diffusion of Cisplatin Molecules in Nanoporous Materials: A Molecular Dynamics Study
(2019)
Using molecular dynamics simulations, the adsorption and diffusion of cisplatin drug molecules in nanopores is investigated for several inorganic materials. Three different materials are studied with widely-varying properties: metallic gold, covalent silicon, and silica. We found a strong influence of both the van der Waals and the electrostatic interaction on the adsorption behavior on the pore walls, which in turn influence the diffusion coefficients. While van der Waals forces generally lead to a reduction of the diffusion coefficient, the fluctuations in the electrostatic energy induced by orientation changes of the cisplatin molecule were found to help desorb the molecule from the wall.
Muscular imbalances of the trunk muscles are held responsible for changes in body posture. At the same time, whole-body electromyostimulation (WB-EMS) has been established as a new training method that enables simultaneous stimulation of many muscle groups. This study was aiming to analyze if a 10 weeks WB-EMS training changes posture-relevant parameters and/or improves isometric strength of the trunk extensors and flexors, and if there are differences based on stimulation at 20 Hz and 85 Hz. Fifty eight untrained adult test persons were divided into three groups (control, CON; training with 20 Hz stimulation, TR20; training with 85 Hz, TR85). Anthropometric parameters, trunk extension and flexion forces and torques, and posture parameters were determined before (n = 58) and after (n = 53: CON: n = 15, TR20: n = 19, TR85: n = 19) a 10 weeks WB-EMS training program (15 applications, 9 exercises). Differences between the groups were calculated for pre- and post-tests using univariate ANOVA and between the test times using repeated (2 × 3) ANOVA. Comparisons of pairs were calculated post hoc based on Fisher (LSD). No differences between the groups were found for the posture parameters. The post hoc analysis of both trunk flexion and trunk extension forces and torques showed a significant difference between the groups TR85 and CON but no difference between the other group pairs. A 10 weeks whole-body electrostimulation training with a stimulation frequency of 85 Hz in contrast to training with a stimulation frequency of 20 Hz improves the trunk muscle strength of an untrained group but does not significantly change posture parameters.
Adjustment Effects of Maximum Intensity Tolerance During Whole-Body Electromyostimulation Training
(2019)
Intensity regulation during whole-body electromyostimulation (WB-EMS) training is mostly controlled by subjective scales such as CR-10 Borg scale. To determine objective training intensities derived from a maximum as it is used in conventional strength training using the one-repetition-maximum (1-RM), a comparable maximum in WB-EMS is necessary. Therefore, the aim of this study was to examine, if there is an individual maximum intensity tolerance plateau after multiple consecutive EMS application sessions. A total of 52 subjects (24.1 ± 3.2 years; 76.8 ± 11.1 kg; 1.77 ± 0.09 m) participated in the longitudinal, observational study (38 males, 14 females). Each participant carried out four consecutive maximal EMS applications (T1–T4) separated by 1 week. All muscle groups were stimulated successively until their individual maximum and combined to a whole-body stimulation index to carry out a possible statement for the development of the maximum intensity tolerance of the whole body. There was a significant main effect between the measurement times for all participants (p < 0.001; ????2 = 0.39) as well as gender specific for males (p = 0.001; ????2 = 0.18) and females (p < 0.001; ????2 = 0.57). There were no interaction effects of gender × measurement time (p = 0.394). The maximum intensity tolerance increased significantly from T1 to T2 (p = 0.001) and T2 to T3 (p < 0.001). There was no significant difference between T3 and T4 (p = 1.0). These results indicate that there is an adjustment of the individual maximum intensity tolerance to a WB-EMS training after three consecutive tests. Therefore, there is a need of several habituation units comparable to the identification of the individual 1-RM in conventional strength training. Further research should focus on an objective intensity-specific regulation of the WB-EMS based on the individual maximum intensity tolerance to characterize different training areas and therefore generate specific adaptations to a WB-EMS training compared to conventional strength training methods.
Small concentrations of alloying elements can modify the
α
α
-
γ
γ
phase transition temperature
T
c
Tc
of Fe. We study this effect using an atomistic model based on a set of many-body interaction potentials for iron and several alloying elements. Free-energy calculations based on perturbation theory allow us to determine the change in
T
c
Tc
introduced by the alloying element. The resulting changes are in semi-quantitative agreement with experiment. The effect is traced back to the shape of the pair potential describing the interaction between the Fe and the alloying atom
Phase-gradient metasurfaces can be designed to manipulate electromagnetic waves according to the generalized Snell’s law. Here, we show that a phased parallel-plate waveguide array (PPWA) can be devised to act in the same manner as a phase-gradient metasurface. We derive an analytic model that describes the wave propagation in the PPWA and calculate both the angle and amplitude distribution of the diffracted waves. The analytic model provides an intuitive understanding of the diffraction from the PPWA. We verify the (semi-)analytically calculated angle and amplitude distribution of the diffracted waves by numerical 3-D simulations and experimental measurements in a microwave goniometer.
Wärmedämm-Verbundsysteme (WDVS) zählen gegenwärtig zu den am meisten eingesetzten Fassadenkonstruktionen, dennoch oder gerade deswegen stoßen die Systeme in der Architektur auf Ablehnung. Auf der technischen Seite wird mit der Anfälligkeit für Algen-/Pilzwuchs, Spechtlöchern oder dem Brandschutz argumentiert. Die architektonische Seite wettert gegen das unwahrhaftige Erscheinungsbild einer massiven Putzwand und äußert Bedenken beim Einsatz im Bestand. Auch im Feuilleton regt sich Widerstand und Angst gewohnte Stadtbilder zu verlieren. Trotz der Probleme können sich Architekten unter den gegebenen politischen Rahmenbedingungen und Kostenzwängen nicht mehr dem WDV-System entziehen. Die Moraldiskussion, die sich unmittelbar an der Fassade abarbeitet und ebenso problematische Verbundbauweisen ausblendet, verdeutlicht, dass es sich vorwiegend um ein Wahrnehmungsproblem handelt. WDV-Systeme gelten als unecht, billig und gestaltungsarm. Damit sich diese architektonische Wahrnehmung von WDV-Systemen nachhaltig verändert, werden systematisch Möglichkeiten und Potenziale vorgestellt, um WDVS zur Bedingung der Gestaltung werden zu lassen. In diesem Sinne interpretiert die Arbeit WDV-Systeme als architektonisches Mittel, das einer gestalterischen Logik folgt, welche sich unmittelbar aus den Gegebenheiten des Systems heraus entwickelt.
In this dissertation we apply financial mathematical modelling to electricity markets. Electricity is different from any other underlying of financial contracts: it is not storable. This means that electrical energy in one time point cannot be transferred to another. As a consequence, power contracts with disjoint delivery time spans basically have a different underlying. The main idea throughout this thesis is exactly this two-dimensionality of time: every electricity contract is not only characterized by its trading time but also by its delivery time.
The basis of this dissertation are four scientific papers corresponding to the Chapters 3 to 6, two of which have already been published in peer-reviewed journals. Throughout this thesis two model classes play a significant role: factor models and structural models. All ideas are applied to or supported by these two model classes. All empirical studies in this dissertation are conducted on electricity price data from the German market and Chapter 4 in particular studies an intraday derivative unique to the German market. Therefore, electricity market design is introduced by the example of Germany in Chapter 1. Subsequently, Chapter 2 introduces the general mathematical theory necessary for modelling electricity prices, such as Lévy processes and the Esscher transform. This chapter is the mathematical basis of the Chapters 3 to 6.
Chapter 3 studies factor models applied to the German day-ahead spot prices. We introduce a qualitative measure for seasonality functions based on three requirements. Furthermore, we introduce a relation of factor models to ARMA processes, which induces a new method to estimate the mean reversion speed.
Chapter 4 conducts a theoretical and empirical study of a pricing method for a new electricity derivative: the German intraday cap and floor futures. We introduce the general theory of derivative pricing and propose a method based on the Hull-White model of interest rate modelling, which is a one-factor model. We include week futures prices to generate a price forward curve (PFC), which is then used instead of a fixed deterministic seasonality function. The idea that we can combine all market prices, and in particular futures prices, to improve the model quality also plays the major role in Chapter 5 and Chapter 6.
In Chapter 5 we develop a Heath-Jarrow-Morton (HJM) framework that models intraday, day-ahead, and futures prices. This approach is based on two stochastic processes motivated by economic interpretations and separates the stochastic dynamics in trading and delivery time. Furthermore, this framework allows for the use of classical day-ahead spot price models such as the ones of Schwartz and Smith (2000), Lucia and Schwartz (2002) and includes many model classes such as structural models and factor models.
Chapter 6 unifies the classical theory of storage and the concept of a risk premium through the introduction of an unobservable intrinsic electricity price. Since all tradable electricity contracts are derivatives of this actual intrinsic price, their prices should all be derived as conditional expectation under the risk-neutral measure. Through the intrinsic electricity price we develop a framework, which also includes many existing modelling approaches, such as the HJM framework of Chapter 5.
The main focus of the research lies in the interpretation and application of results and correlations of soil properties from in situ testing and subsequent use in terramechanical applications. The empirical correlations and current procedures were mainly developed for medium to large depths, and therefore they were re-evaluated and adjusted herein to reflect the current state of knowledge for the assessment of near-surface soil. For testing technologies, a field investigation to a moon analogue site was carried out. Focus was placed in the assessment of the near surface soil properties. Samples were collected for subsequent analysis in laboratory conditions. Further laboratory experiments in extraterrestrial soil simulants and other terrestrial soils were conducted and correlations with relative density and shear strength parameters were attempted. The correlations from the small scale laboratory experiments, and the new re-evaluated correlation for relative density were checked against the data from the field investigation. Additionally, single tire-soil tests were carried out, which enable the investigation of the localized soil response in order to advance current wheel designs and subsequently the vehicle’s mobility. Furthermore, numerical simulations were done to aid the investigation of the tire-soil interaction. Summing up, current relationships for estimating relative density of near surface soil were re-evaluated, and subsequently correlated to shear strength parameters that are the main input to model soil in numerical analyses. Single tire-soil tests were carried out and were used as a reference to calibrate the interaction of the tire and the soil and subsequently were utilized to model rolling scenarios which enable the assessment of soil trafficability and vehicle’s mobility.
Radar cross section reducing (RCSR) metasurfaces or coding metasurfaces were primarily designed for normally incident radiation in the past. It is evident that the performance of coding metasurfaces for RCSR can be significantly improved by additional backscattering reduction of obliquely incident radiation, which requires a valid analytic conception tool. Here, we derive an analytic current density distribution model for the calculation of the backscatter far-field of obliquely incident radiation on a coding metasurface for RCSR. For demonstration, we devise and fabricate a metasurface for a working frequency of 10.66GHz and obtain good agreement between the measured, simulated, and analytically calculated backscatter far-fields. The metasurface significantly reduces backscattering for incidence angles between −40∘ and 40∘ in a spectral working range of approximately 1GHz.
Exploiting Direct Laser Writing for Hydrogel Integration into Fragile Microelectromechanical Systems
(2019)
The integration of chemo-responsive hydrogels into fragile microelectromechanical systems (MEMS) with reflective surfaces in the micron to submicron range is presented. Direct laser writing (DLW) for 3D microstructuring of chemoresponsive “smart” hydrogels on sensitive microstructures is demonstrated and discussed in detail, by production of thin hydrogel layers and discs with a controllable lateral size of 2 to 5 µm and a thickness of some hundred nm. Screening results of polymerizing laser settings for precision microstructuring were determined by controlling crosslinking and limiting active chain diffusion during polymerization with macromers. Macromers are linear polymers with a tunable amount of multifunctional crosslinker moieties, giving access to a broad range of different responsive hydrogels. To demonstrate integration into fragile MEMS, the gel was deposited by DLW onto a resonator with a 200 nm thick sensing plate with high precision. To demonstrate the applicability for sensors, proof of concept measurements were performed. The polymer composition was optimized to produce thin reproducible layers and the feasibility of 3D structures with the same approach is demonstrated.
3D joint kinematics can provide important information about the quality of movements. Optical motion capture systems (OMC) are considered the gold standard in motion analysis. However, in recent years, inertial measurement units (IMU) have become a promising alternative. The aim of this study was to validate IMU-based 3D joint kinematics of the lower extremities during different movements. Twenty-eight healthy subjects participated in this study. They performed bilateral squats (SQ), single-leg squats (SLS) and countermovement jumps (CMJ). The IMU kinematics was calculated using a recently-described sensor-fusion algorithm. A marker based OMC system served as a reference. Only the technical error based on algorithm performance was considered, incorporating OMC data for the calibration, initialization, and a biomechanical model. To evaluate the validity of IMU-based 3D joint kinematics, root mean squared error (RMSE), range of motion error (ROME), Bland-Altman (BA) analysis as well as the coefficient of multiple correlation (CMC) were calculated. The evaluation was twofold. First, the IMU data was compared to OMC data based on marker clusters; and, second based on skin markers attached to anatomical landmarks. The first evaluation revealed means for RMSE and ROME for all joints and tasks below 3°. The more dynamic task, CMJ, revealed error measures approximately 1° higher than the remaining tasks. Mean CMC values ranged from 0.77 to 1 over all joint angles and all tasks. The second evaluation showed an increase in the RMSE of 2.28°– 2.58° on average for all joints and tasks. Hip flexion revealed the highest average RMSE in all tasks (4.87°– 8.27°). The present study revealed a valid IMU-based approach for the measurement of 3D joint kinematics in functional movements of varying demands. The high validity of the results encourages further development and the extension of the present approach into clinical settings.
The coordination of multiple external representations is important for learning, but yet a difficult task for students, requiring instructional support. The subject in this study covers a typical relation in physics between abstract mathematical equations (definitions of divergence and curl) and a visual representation (vector field plot). To support the connection across both representations, two instructions with written explanations, equations, and visual representations (differing only in the presence of visual cues) were designed and their impact on students’ performance was tested. We captured students’ eye movements while they processed the written instruction and solved subsequent coordination tasks. The results show that students instructed with visual cues (VC students) performed better, responded with higher confidence, experienced less mental effort, and rated the instructional quality better than students instructed without cues. Advanced eye-tracking data analysis methods reveal that cognitive integration processes appear in both groups at the same point in time but they are significantly more pronounced for VC students, reflecting a greater attempt to construct a coherent mental representation during the learning process. Furthermore, visual cues increase the fixation count and total fixation duration on relevant information. During problem solving, the saccadic eye movement pattern of VC students is similar to experts in this domain. The outcomes imply that visual cues can be beneficial in coordination tasks, even for students with high domain knowledge. The study strongly confirms an important multimedia design principle in instruction, that is, that highlighting conceptually relevant information shifts attention to relevant information and thus promotes learning and problem solving. Even more, visual cues can positively influence students’ perception of course materials.
Modern applications in the realms of wireless communication and mobile broadband Internet increase the demand for compact antennas with well defined directivity. Here, we present an approach for the design and implementation of hybrid antennas consisting of a classic feeding antenna that is near-field-coupled to a subwavelength resonator. In such a combined structure, the composite antenna always radiates at the resonance frequency of the subwavelength oscillator as well as at the resonance frequency of the feeding antenna. While the classic antenna serves as impedance-matched feeding element, the subwavelength resonator induces an additional resonance to the composite antenna. In general, these near-field coupled structures are known for decades and are lately published as near-field resonant parasitic antennas. We describe an antenna design consisting of a high-frequency electric dipole antenna at fd=25 GHz that couples to a low-frequency subwavelength split-ring resonator, which emits electromagnetic waves at fSRR=10.41 GHz. The radiating part of the antenna has a size of approximately 3.2mm×8mm×1mm and thus is electrically small at this frequency with a product k⋅a=0.5 . The input return loss of the antenna was moderate at −18 dB and it radiated at a spectral bandwidth of 120 MHz. The measured main lobe of the antenna was observed at 60∘ with a −3 dB angular width of 65∘ in the E-plane and at 130∘ with a −3 dB angular width of 145∘ in the H-plane
Cyclic indentation is a technique used to characterize materials by indenting repeatedly on the same location. This technique allows information to be obtained on how the plastic material response changes under repeated loading. We explore the processes underlying this technique using a combined experimental and simulative approach. We focus on the loading–unloading hysteresis and the dependence of the hysteresis width ha,p on the cycle number. In both approaches, we obtain a power-law demonstrating ha,p with respect to the hardening exponent e. A detailed analysis of the atomistic simulation results shows that changes in the dislocation network under repeated indentation are responsible for this behavior.
The fifth-generation mobile telecommunication network is expected to support multi-access edge computing (MEC), which intends to distribute computation tasks and services from the central cloud to the edge clouds. Toward ultra-responsive, ultra-reliable, and ultra-low-latency MEC services, the current mobile network security architecture should enable a more decentralized approach for authentication and authorization processes. This paper proposes a novel decentralized authentication architecture that supports flexible and low-cost local authentication with the awareness of context information of network elements such as user equipment and virtual network functions. Based on a Markov model for backhaul link quality as well as a random walk mobility model with mixed mobility classes and traffic scenarios, numerical simulations have demonstrated that the proposed approach is able to achieve a flexible balance between the network operating cost and the MEC reliability.
Dieser Beitrag beschreibt eine Lernumgebung für Schülerinnen und Schüler der Unter- und Mittelstufe mit einem Schwerpunkt im Fach Mathematik. Das Thema dieser Lernumgebung ist die Simulation von Entfluchtungsprozessen im Rahmen von Gebäudeevakuierungen. Dabei wird das Konzept eines zellulären Automaten vermittelt, ohne dabei Programmierkenntnisse vorauszusetzen oder anzuwenden. Anhand dieses speziellen Simulationswerkzeugs des zellulären Automaten werden Eigenschaften, Kenngrößen sowie Vor- und Nachteile von Simulationen im Allgemeinen thematisiert. Dazu gehören unter anderem die experimentelle Datengewinnung, die Festlegung von Modellparametern, die Diskretisierung des zeitlichen und räumlichen Betrachtungshorizonts sowie die zwangsläufig auftretenden (Diskretisierungs-)Fehler, die algorithmischen Abläufe einer Simulation in Form elementarer Handlungsanweisungen, die Speicherung und Visualisierung von Daten aus einer Simulation sowie die Interpretation und kritische Diskussion von Simulationsergebnissen. Die vorgestellte Lernumgebung ermöglicht etliche Variationen zu weiteren Aspekten des Themas „Evakuierungssimulation“ und bietet dadurch auch vielfältige Differenzierungsmöglichkeiten.
Die Nachrechnung bestehender Bauwerke muss grundsätzlich auf Basis der aktuellen, bauaufsichtlich eingeführten technischen Baubestimmungen geführt werden. Dazu werden charakteristische Materialkennwerte der verwendeten Baustoffe benötigt.
Im Rahmen einer Vordimensionierung kann die Betondruckfestigkeit durch Umrechnung von aus der Herstellzeit dokumentierten Werten abgeschätzt werden. Für eine abgesicherte Nachrechnung hingegen muss die charakteristische Betondruckfestigkeit durch Untersuchungen am Bauwerk ermittelt werden, um den Einfluss verschiedener last- oder zeitabhängiger Prozesse zu erfassen.
Zur statistischen Bewertung der experimentell ermittelten Werte der In-situ-Betondruckfestigkeit existieren verschiedene Verfahren. Besonders bei kleinem Stichprobenumfang führen die bisher gebräuchlichen Verfahren nach DIN EN 1990:2010-12 und DIN EN 13791:2008-05 jedoch teilweise zu ingenieurmäßig als kritisch einzustufenden Ergebnissen, welche die tatsächliche In-situ-Betondruckfestigkeit erheblich über- oder unterschätzen können.
Aufbauend auf Untersuchungen an realen, umfangreichen Datensätzen wurde in dieser Arbeit ein neues Verfahren mit den vom Stichprobenumfang und dem Variationskoeffizienten abhängigen modifizierten Ansätzen A und B zur Bestimmung der charakteristischen In-situ-Betondruckfestigkeit, basierend auf experimentell, mit direkten Prüfverfahren ermittelten Einzelwerten, entwickelt.
Zur Bestimmung des Nachrechnungswertes der Betondruckfestigkeit gilt es über den charakteristischen Wert der In-situ-Betondruckfestigkeit hinaus auch noch den Unterschied zwischen Bauwerks- und Normprobekörperdruckfestigkeit sowie den Einfluss von Dauerstandseffekten zu bewerten.
Die durchgeführten Untersuchungen zeigen, dass bei Bestandsbetonen, wie auch bereits im Neubaufall, das Verhältnis zwischen Bauwerks- und Normprobekörperfestigkeit ca. 0,85 beträgt. Auch bei der experimentellen Ermittlung der In-situ-Betondruckfestigkeit an aus dem Bauwerk entnommenen Proben ist der Unterschied zwischen Kurzzeit- und Dauerstandsfestigkeit mit dem im Neubaufall gebräuchlichen Faktor αcc = 0,85 zu berücksichtigen.
Neben der Druckfestigkeit, ist im Rahmen der Nachrechnung von Bestandsbauwerken auch teilweise die Zugfestigkeit oder der Elastizitätsmodul von Bestandsbetonen zu bewerten. Die in DIN EN 1992-1-1:2011-01 enthaltenen Beziehungen zwischen Druck- und Zugfestigkeit sowie zwischen Druckfestigkeit und Elastizitätsmodul sind jedoch ausschließlich für im Neubaufall verwendete Betone nach DIN EN 206-1:2001-07 ausgelegt.
Die Untersuchungen zeigen, dass die in DIN EN 1992-1-1:2011-01 enthaltene Korrelation zwischen Druck- und Zugfestigkeit auch zur groben Abschätzung der Zugfestigkeit von Bestandsbetonen verwendet werden kann. Im Einzelfall sind jedoch auch große Abweichungen nicht auzuschließen. Bedingt durch den großen Einfluss der Gesteinskörnung ist nur eine sehr grobe Abschätzung des Elastizitätsmoduls aus der In-situ-Betondruckfestigkeit möglich.
Entwicklung thermoplastischer Faserkunststoffverbunde aus carbonfaserverstärkten PPS/PES-Blends
(2019)
Der Anteil von Faserkunststoffverbunden (FKV) in heutigen Verkehrsflugzeugen nimmt
rund 50% der Gesamtmasse ein. Thermoplastische Verbundwerkstoffe werden dabei
vorzugsweise wegen ihrer fertigungstechnischen Vorteile (Umformbarkeit, Schweißbarkeit)
und ihrer hohen Zähigkeit ausgewählt. Ihr Anteil an den Verbundbauteilen ist
jedoch noch relativ gering, vor allem wegen vergleichsweise hohen Materialkosten
insbesondere für kohlenstofffaserverstärktem Polyetheretherketone (PEEK).
Die vorliegende Arbeit fokussiert die Herstellung thermoplastischer Blends aus Polyphenylensulfid
(PPS) und Polyethersulfon (PES) sowie deren Weiterverarbeitung zu
Hochleistungs-FKV im Autoklavprozess. Es konnte gezeigt werden, dass mechanische
und thermomechanische Eigenschaften beider Polymere in die Faserverbundstrukturen
lokal und global überführbar sind. Der Transfer in FKV-Strukturen ist abhängig von der
lokalen Anordnung der im PPS verteilten PES-Phase. Die Abschätzung der Faserbenetzung
durch die Polymerphasen sowie die Fraktographie verdeutlichten, dass der
Eigenschaftstransfer in den Verbund über Grenzflächeninteraktionen gesteuert werden
kann. Weiterhin führten die Interaktionen der Polymer-Phasen zu einer Strukturviskosität
der Blends, welche sich in einem deutlich elastischerem Fließverhalten des
Matrixgemisches äußerte. Mittels der oberflächenenergetischen Analysen an Fasern
und Polymerschmelzen wurden die konkurrierende Affinitäten der Phasen ermittelt
und modellhaft diskutiert. Es zeigte sich, dass die abgeschätzten Kapillarkräfte der
Polymere signifikant genug sein können, um die Imprägnierung zu beeinflussen. Der
Einsatz eines Verträglichkeitsvermittlers kann dabei die Gemisch-Stabilität fördern sowie
Gegenkräfte zur Imprägnierung in Gang setzen. Gleichzeitig wurde die Phasenkompatibilität
als notwendig für den Eigenschaftstransfer deklariert. Die wichtigen Interaktionen
zwischen Polymeren und Fasern müssen in solchen Systemen durch die Anpassung
von Benetzungs- und Phasenformierungsmechanismen gesteuert werden, um schnelle
Verarbeitungsprozesse und damit qualitativ hochwertige Faserverbundstrukturen zu
ermöglichen.
Die vorliegende Master-Arbeit untersucht die Problemstellung, wie eine Einzelschule einen konkreten Beitrag zur Fortbildung ihrer Lehrkräfte vor dem Hintergrund des digitalen Wandels leisten kann.
Im theoretischen Teil wird zunächst die Rolle von digitalen Medien im Unterricht näher untersucht. Dabei wird deutlich, dass ihre Potenziale erst dann zu einem Mehrwert für das Lernen der Schülerinnen und Schüler werden, wenn die folgenden zentralen Voraussetzungen erfüllt sind: Erstens wird eine funktionstüchtige technische Infrastruktur benötigt. Zweitens müssen rechtliche Grundfragen zur Nutzung digitaler Medien im Unterricht geklärt sein. Drittens führen digitale Medien erst dann zu einem Mehrwert, wenn sowohl bei Lernenden als auch bei Lehrenden ausreichend Medienkompetenz vorhanden ist.
An die Formulierung dieser Voraussetzungen knüpfen sich im Theorieteil der Arbeit weitere Schlussfolgerungen: Erstens muss die Vermittlung von Medienkompetenz als Bildungsziel von Schule angesehen werden. Zweitens müssen Lehrkräfte neben der eigenen Medienkompetenz auch über medienpädagogische Kompetenz verfügen, damit sie in der Lage sind, digitale Medien sinnvoll und lernförderlich im Unterricht einzusetzen. Da aber viele Lehrende bislang nicht hinreichend ausgebildet wurden, kommt der Lehrkräftefortbildung hier eine besondere Rolle zu und daher kann sie als Grundvoraussetzung für Bildung in der digitalen Welt gesehen werden.
Eine gelingende Lehrkräftefortbildung zur Digitalisierung muss eingebettet sein in den spezifischen Schulentwicklungskontext einer Einzelschule. Da die jeweiligen Voraussetzungen von Schule zu Schule sehr unterschiedlich sind, kann es hier keine Patentlösung geben, welche „von oben“ auf alle Schulen übergestülpt wird. Dabei spielt die Schulleitung vor Ort erwartungsgemäß eine entscheidende Rolle.
Im Praxisteil der Master-Arbeit werden die Vorbedingungen und Vorüberlegungen an einer konkreten Einzelschule skizziert, die sich auf den Weg machte, den digitalen Wandel systematisch im Rahmen der Schulentwicklung zu gestalten. Ein Meilenstein dieses Entwicklungsprozesses stellt die Ausrichtung eines regionalen Fortbildungstages für Lehrkräfte zur „Digitalen Ethik“ dar.
Anhand der Schulentwicklungsdimensionen nach Zylka (2018) wird im weiteren Verlauf der Arbeit aufgezeigt, warum dieser Fortbildungstag einen entscheidenden Beitrag zur Schulentwicklung leistet.
Im Schlussteil vergleicht der Autor im Rahmen eines selbstkritischen Zwischenberichts inwiefern die Einzelschule hier die typischen Fehler der Schulentwicklung begangen hat, wie sie von Horster (2011) beschrieben worden sind.
Die MINT-EC-Girls-Camp: Math-Talent-School ist eine vom Fraunhofer Institut für Techno- und Wirtschaftsmathematik (ITWM) initiierte Veranstaltung, die regelmäßig als Kooperation zwischen dem Felix-Klein-Zentrum für Mathematik und dem Verein mathematisch-naturwissenschaftlicher Excellence-Center an Schulen e.V. (Verein MINT-EC) durchgeführt wird. Die methodisch-didaktische Konzeption der Math-Talent-Schools erfolgt durch das Kompetenzzentrum für Mathematische Modellierung in MINT-Projekten in der Schule (KOMMS), einer wissenschaftlichen Einrichtung des Fachbereichs Mathematik der Technischen Universität Kaiserslautern. Die inhaltlich-organisatorische Ausführung übernimmt das Fraunhofer-Institut für Techno- und Wirtschaftsmathematik ITWM in enger Abstimmung und Kooperation von Wissenschaftlern der Technischen Universität und des Fraunhofer ITWM. Die MINT-EC-Girls-Camp: Math-Talent-School hat zum Ziel, Mathematik-interessierten Schülerinnen einen Einblick in die Arbeitswelt von Mathematikerinnen und Mathematikern zu geben. In diesem Artikel stellen wir die Math-Talent-School vor. Hierfür werden die fachlichen und fachdidaktischen Hintergründe der Projekte beleuchtet, der Ablauf der Veranstaltung erläutert und ein Fazit gezogen.
Die Teilnahme an Weiterbildung wird immer beliebter und seit geraumer Zeit auch auf einem kontinuierlich hohen Niveau nachgefragt. Zunehmend agieren auch immer mehr Hochschulen als Anbieter auf dem Weiterbildungsmarkt, deren Relevanz durch die Bologna-Reform und der bildungspolitischen Betonung der Strategie einer Recurrent Education untermauert wurde. Die Lernenden, die als lebenslang Lernende auch im Erwachsenenalter in ihre Zukunft investieren, gelten als weiterbildungsaffine Teilnehmende, die über eine Vielzahl an gesammelten biographischen Lern- und Berufserfahrungen verfügen und häufig berufs- und lebensbegleitend wissenschaftliche Weiterbildung partizipieren. Über eine Kosten-Nutzen-Kalkulation von Weiterbildungsteilnahmen hinaus, stehen seit der Bologna-Reform neben den Lernergebnissen gleichsam die durch die Teilnahmen erzielten Weiterbildungswirkungen als Outcome im Fokus. Der bildungspolitische Blick auf diesen wissensbasierten Outcome bedeutet auch, stärker die individuelle Kompetenzbilanz der Teilnehmenden bei der Betrachtung ihrer Bildungsbemühungen einzubeziehen. Wenn bei der Beurteilung wirksamer Weiterbildungsteilnahmen vor allem die Lernenden und deren Kompetenzentwicklung im Mittelpunkt stehen, stellt sich die Frage, welche nachhaltigen und langfristigen Effekte die Lernenden selbst der Weiterbildung zurechnen und erlebbar auch als Erweiterung der eigenen Handlungsvielfalt wahrnehmen. Die hiesige Interviewstudie, angesiedelt im Feld der Teilnehmerforschung, rekonstruiert typische Handlungsmuster als Aneignungsperformanz von Fernstudierenden im angeleiteten Selbststudium und interpretiert diese im Hinblick auf die wahrgenommene Kompetenzentwicklung durch die Weiterbildung. Damit ist das Ziel verbunden Hinweise für die Gestaltung outcomeorientierter Lehr-Lernarrangements zu erarbeiten.
Faserkunststoffverbunde (FKV) haben durch die Substitution metallischer Strukturen
ein großes Leichtbaupotential. Die Integration von aktiven Materialien wie Formgedächtnislegierungen
(FGL) in Bauteile aus FKV ermöglicht die Herstellung aktiver
Hybridverbunde, wodurch eine zusätzliche Bauraum- und Gewichtsersparnis möglich
ist bzw. völlig neue Lösungsansätze denkbar werden.
Dabei hat die Kraftübertragung zwischen FGL und FKV einen entscheidenden Einfluss
auf die Performance solcher aktiver Hybridverbunde. Nur bei einer ausreichenden
Kraftübertragung kann das vollständige Aktorikpotential der FGL ausgenutzt
werden. Dabei sind zwei Bereiche zu unterscheiden, die sich durch unterschiedliche
Belastungsszenarien auszeichnen. Während im Randbereich Schubspannungen auftreten,
da dort die Kraft aus der FGL in den FKV eingeleitet wird, ist der mittlere Bereich
von Normalspannungen geprägt, die zu einem Ablösen der FGL vom FKV führen
können.
Im Rahmen dieser Arbeit wurden deshalb Methoden zur Charakterisierung der Kraftübertragung
in beiden Bereichen identifiziert. Zusätzlich wurden verschiedene Kraftübertragungsmechanismen
vergleichend untersucht. Durch eine modellhafte Betrachtung
wurde ein besseres Verständnis der Versagensmechanismen erreicht.
Dabei konnte gezeigt werden, dass mittels Pull-Out Versuchen ein Vergleich zwischen
verschiedenen Kraftübertragungsmechanismen möglich ist. Formschlüssige
Verbindungen ermöglichten eine Steigerung der Pull-Out Kraft um mehr als das 10-
fache im Vergleich zu unbehandelten Drähten. Allerdings wurde auch deutlich, dass
die Temperatur großen Einfluss auf die Matrixeigenschaften und damit auf das Interface
zwischen FGL und FKV hat. Durch die Verwendung einer Spannungsoptik
konnte die inhomogene Spannungsverteilung sowie der Versagensfortschritt visualisiert
werden. Mit Hilfe von 90°-Schälversuchen konnte gezeigt werden, dass durch
das Aufsticken der FGL-Drähte auf dem FKV ein Ablösen im mittleren Bereich verhindert
werden kann. Anhand von Verformungsversuchen an aktiven Hybridverbunden
konnten diese Ergebnisse bestätigt werden. Durch die in dieser Arbeit gewonnenen Ergebnisse ist zukünftig möglich, die Performance aktiver Hybridverbunde zu steigern, da die von den FGL generierte Kraft nahezu vollständig in den Hybridverbund eingeleitet werden kann, ohne dass es zu einem strukturellen Versagen kommt.
Modifizierte, phosphatfreie Organomineralharze in glas- und basaltfaserverstärkten Kunststoffen
(2019)
Die vorliegende Arbeit befasst sich mit der Modifikation duroplastischer, kalthärtender Organomineralharzmatrices für glas- und basaltfaserverstärkte Kunststoffe, welche zukünftig Anwendung in der Kurzliner-Sanierung defekter und korrosiv belasteter Rohrleitungen finden sollen. Bei dem heute zur Anwendung kommenden, so genannten 3P-Harz (Polyisocyanat, Polykieselsäure, Phosphat), dienen organische Phosphorsäureester als Emulgatoren der reaktiven PMDI/WG-Emulsion. Diese unterliegen jedoch der Gefahr, durch die EU-Verordnung REACH (EG-Nr. 1907/2006) restriktiert zu werden. Es wird gezeigt, dass die Substitution der organischen Phosphorsäureester durch epoxidiertes Leinsamenöl (ELO) aus nachwachsenden Rohstoffen ohne Einbußen der Verarbeitbarkeit und der (bruch-)mechanischen Eigenschaften möglich ist. Dadurch bleibt eine REACH-Konformität des Harzsystems gewährleistet. Die weitergehende gezielte Modifikation der in situ mit Polysilikatpartikeln gefüllten Polyharnstoffharze mittels silan-terminierter Polymere (STP) führt außerdem zu Verbesserungen der Bruchzähigkeit durch Matrix/Partikel-Brückenbildungen.
Gegenüber dem phosphathaltigen Stand der Technik Harz wird durch die entwickelten 2P-Matrices (Polyisocyanat, Polykieselsäure) eine erhöhte Schadenstoleranz in GFK wie auch in neuartigen BFK nachgewiesen. Ferner wird die Dauerhaftigkeit erhöht und ein unerwünschtes Ausdiffundieren phosphathaltiger, umweltbelastender Emulgatoren wird vermieden. Es werden synergistische Effekte wirksam, welche aufgrund der STP-Modifikation in GFK und neuartigen BFK zu einer verbesserten Faser/Matrix-Haftung und somit einer erhöhten Lebensdauer führen. Der Einsatz von glasähnlichen aber thermisch- und korrosionsbeständigen Basaltfasern, welche in energiearmen Prozessen aus natürlichem Lavagestein gewonnen werden, wird positiv bewertet.
Wir zeigen an einigen Beispielen, wie man numerische Simulationen in Tabellenkalkulationsprogrammen (hier speziell in Excel) erzeugen kann. Diese können beispielsweise im Kontext von mathematischer Modellierung verwendet werden.
Die Beispiele umfassen ein Modell zur Ausbreitung von Krankheiten, die Flugkurve eines Fußballs unter Berücksichtigung von Luftreibung, eine Monte-Carlo-Simulation zur experimentellen Bestimmung von pi, eine Monte-Carlo-Simulation eines gemischten Kartenstapels und die Modellierung von Benzinpreisen mit einem Preistrend und Rauschen
Planar force or pressure is a fundamental physical aspect during any people-vs-people and people-vs-environment activities and interactions. It is as significant as the more established linear and angular acceleration (usually acquired by inertial measurement units). There have been several studies involving planar pressure in the discipline of activity recognition, as reviewed in the first chapter. These studies have shown that planar pressure is a promising sensing modality for activity recognition. However, they still take a niche part in the entire discipline, using ad hoc systems and data analysis methods. Mostly these studies were not followed by further elaborative works. The situation calls for a general framework that can help push planar pressure sensing into the mainstream.
This dissertation systematically investigates using planar pressure distribution sensing technology for ubiquitous and wearable activity recognition purposes. We propose a generic Textile Pressure Mapping (TPM) Framework, which encapsulates (1) design knowledge and guidelines, (2) a multi-layered tool including hardware, software and algorithms, and (3) an ensemble of empirical study examples. Through validation with various empirical studies, the unified TPM framework covers the full scope of application recognition, including the ambient, object, and wearable subspaces.
The hardware part constructs a general architecture and implementations in the large-scale and mobile directions separately. The software toolkit consists of four heterogeneous tiers: driver, data processing, machine learning, visualization/feedback. The algorithm chapter describes generic data processing techniques and a unified TPM feature set. The TPM framework offers a universal solution for other researchers and developers to evaluate TPM sensing modality in their application scenarios.
The significant findings from the empirical studies have shown that TPM is a versatile sensing modality. Specifically, in the ambient subspace, a sports mat or carpet with TPM sensors embedded underneath can distinguish different sports activities or different people's gait based on the dynamic change of body-print; a pressure sensitive tablecloth can detect various dining actions by the force propagated from the cutlery through the plates to the tabletop. In the object subspace, swirl office chairs with TPM sensors under the cover can be used to detect the seater's real-time posture; TPM can be used to detect emotion-related touch interactions for smart objects, toys or robots. In the wearable subspace, TPM sensors can be used to perform pressure-based mechanomyography to detect muscle and body movement; it can also be tailored to cover the surface of a soccer shoe to distinguish different kicking angles and intensities.
All the empirical evaluations have resulted in accuracies well-above the chance level of the corresponding number of classes, e.g., the `swirl chair' study has classification accuracy of 79.5% out of 10 posture classes and in the `soccer shoe' study the accuracy is 98.8% among 17 combinations of angle and intensity.
Leben in Kaiserslautern 2019
(2019)
Das Projekt zum „Leben in Kaiserslautern 2019“ (LiK) untersucht die Lebensqualität in Kaiserslautern, die Zufriedenheit mit der Demokratie und den politischen Institutionen sowie die politische und gesellschaftliche Partizipation der Bürgerinnen und Bürger. Der Bericht stellt das methodische Design der LiK-Befragung vor. Es werden deskriptive Ergebnisse aus der Befragung präsentiert. Dabei wird auch Bezug auf Ergebnisse aus bundesweiten Bevölkerungsumfragen, die einen Vergleich zwischen Kaiserslautern und ganz Deutschland erlauben, genommen.
Topological insulators (TI) are a fascinating new state of matter. Like usual insulators, their band structure possesses a band gap, such that they cannot conduct current in their bulk. However, they are able to conduct current along their edges and surfaces, due to edge states that cross the band gap. What makes TIs so interesting and potentially useful are these robust unidirectional edge currents. They are immune to significant defects and disorder, which means that they provide scattering-free transport.
In photonics, using topological protection has a huge potential for applications, e.g. for robust optical data transfer [1-3] – even on the quantum level [4, 5] – or to make devices more stable and robust [6, 7]. Therefore, the field of topological insulators has spread to optics to create the new and active research field of topological photonics [8-10].
Well-defined and controllable model systems can help to provide deeper insight into the mechanisms of topologically protected transport. These model systems provide a vast control over parameters. For example, arbitrary lattice types without defects can be examined, and single lattice sites can be manipulated. Furthermore, they allow for the observation of effects that usually happen at extremely short time-scales in solids. Model systems based on photonic waveguides are ideal candidates for this.
They consist of optical waveguides arranged on a lattice. Due to evanescent coupling, light that is inserted into one waveguide spreads along the lattice. This coupling of light between waveguides can be seen as an analogue to electrons hopping/tunneling between atomic lattice sites in a solid.
The theoretical basis for this analogy is given by the mathematical equivalence between Schrödinger and paraxial Helmholtz equation. This means that in these waveguide systems, the role of time is assigned to a spatial axis. The field evolution along the waveguides' propagation axis z thus models the temporal evolution of an electron's wave-function in solid states. Electric and magnetic fields acting on electrons in solids need to be incorporated into the photonic platform by introducing artificial fields. These artificial gauge fields need to act on photons in the same way that their electro-magnetic counterparts act on electrons. E.g., to create a photonic analogue of a topological insulator the waveguides are bent helically along their propagation axis to model the effect of a magnetic field [3]. This means that the fabrication of these waveguide arrays needs to be done in 3D.
In this thesis, a new method to 3D micro-print waveguides is introduced. The inverse structure is fabricated via direct laser writing, and subsequently infiltrated with a material with higher refractive index contrast. We will use these model systems of evanescently coupled waveguides to look at different effects in topological systems, in particular at Floquet topological systems.
We will start with a topologically trivial system, consisting of two waveguide arrays with different artificial gauge fields. There, we observe that an interface between these trivial gauge fields has a profound impact on the wave vector of the light traveling across it. We deduce an analog to Snell's law and verify it experimentally.
Then we will move on to Floquet topological systems, consisting of helical waveguides. At the interface between two Floquet topological insulators with opposite helicity of the waveguides, we find additional trivial interface modes that trap the light. This allows to investigate the interaction between trivial and topological modes in the lattice.
Furthermore, we address the question if topological edge states are robust under the influence of time-dependent defects. In a one-dimensional topological model (the Su-Schrieffer-Heeger model [11]) we apply periodic temporal modulations to an edge wave-guide. We find Floquet copies of the edge state, that couple to the bulk in a certain frequency window and thus depopulate the edge state.
In the two-dimensional Floquet topological insulator, we introduce single defects at the edge. When these defects share the temporal periodicity of the helical bulk waveguides, they have no influence on a topological edge mode. Then, the light moves around/through the defect without being scattered into the bulk. Defects with different periodicity, however, can – likewise to the defects in the SSH model – induce scattering of the edge state into the bulk.
In the end we will briefly highlight a newly emerging method for the fabrication of waveguides with low refractive index contrast. Moreover, we will introduce new ways to create artificial gauge fields by the use of orbital angular momentum states in waveguides.
Digitalisierung als ein wesentlicher Treiber von Veränderungen und Wissen als ein wichtiger Wettbewerbs- und Überlebensfaktor stellen Organisationen aller Branchen und Sektoren vor neue Anpassungsbestrebungen, um ihre Existenz zu sichern. Das Gesundheitswesen mit seinem großen Potenzial mithilfe neuer Technologien aus Ideen verwertbare Produkte oder Dienstleistungen entstehen zu lassen (Digital Health Innovationen) steht vor der Herausforderung, nur bedingt an vorhandenes Wissen anknüpfen zu können. Die Gründe hierfür liegen im Digital Health Bereich zum einen in der häufigen Nicht-Patentierbarkeit von Erfindungen und zum anderen in der Gestaltung des Prozesses an sich, um aus einer Idee ein Produkt entstehen zu lassen. Zu komplex ist der Innovationsprozess geworden, in dem universitäre Technologietransferstellen (Technology Transfer Offices (TTOs)) als Schnittstelle zwischen Forschung, Politik und Wirtschaft agieren. Die Masterarbeit beschäftigt sich mit der Frage, welchen Beitrag universitäre Technologietransferstellen zur Umsetzung von Digital Health Innovationen leisten können und wie diese Umsetzung organisationsintern aus Blickwinkel des organisationalen Lernens gestaltet werden kann.
Die Entwicklung des ersten 3D-druckbaren Smartphonephotometers zur Erfassung kinetischer und statischer Messdaten enzymatischer und chemischer Reaktionen am Smartphone ohne den Einsatz zusätzlicher elektronischer Komponenten oder aufwändiger optischer Komponenten wird vorgestellt. Die Entwicklung erfolgt sowohl im Bereich der Umweltanalytik zum Nachweis von Schwermetallbelastungen in Gewässerproben im Rahmen von Citizen Sciences Anwendungen als auch als point of need Analysesystem zum industriellen Einsatz in Winzereibetrieben unter jeweils angepassten Zielsetzungen und Beispielsystemen. Für die verschiedenen Anwendungsbereiche werden unterschiedliche Systeme mit angepassten Zielsetzungen entwickelt. Ein küvettenbasiertes System wird in Hinblick auf die Anforderungen des Citizen Sciences Bereichs entwickelt. Ein kapillarbasiertes Smartphonephotometer und –nephelometer wird entwickelt um den Anforderungen in Winzereibetrieben optimal zu entsprechen.
Verwendung finden im Bereich der Umweltanalytik enzymatische Assay, die in herkömmlichen Küvetten durchgeführt werden. Die Assays beruhen auf der Erfassung inhibitorischer Effekte auf die Aktivität von Enzymen und Enzymkaskaden durch Schwermetallbelastungen in Gewässerproben. Im Anwendungsfeld der Weinanalytik werden chemisch Parameter am Smartphonephotometer bestimmt. Die photometrische Analyse wird in vorkonfektionierbaren Assaykapillaren durchgeführt. Dies ermöglicht die Realisierung minimaler Anforderungen an die durchführenden Personen bei maximaler Reproduzierbarkeit der Untersuchungsergebnisse.
Die Smartphonephotometer sind unter Verwendung der smartphoneeigenen Blitzlicht-LED als Lichtquelle in der Lage Änderungen der Extinktion in den Wellenlängenbereichen von 410-545 nm, 425-650 und 555-675 nm zu quantifizieren. Die Einschränkung der spezifischen Wellenlänge wird durch die inhomogenen Emissionsspektren der LED der Blitzlicht-LED des Smartphones verursacht. Nephelometrische Trübungsmessungen können bis zu einer Trübung von 250 FNU quantitativ durchgeführt werden.
We report the design, fabrication and experimental investigation of a spectrally wide-band terahertz spatial light modulator (THz-SLM) based on an array of 768 actuatable mirrors with each having a length of 220 μm and a width of 100 μm. A mirror length of several hundred micrometers is required to reduce diffraction from individual mirrors at terahertz frequencies and to increase the pixel-to-pixel modulation contrast of the THz-SLM. By means of spatially selective actuation, we used the mirror array as reconfigurable grating to spatially modulate terahertz waves in a frequency range from 0.97 THz to 2.28 THz. Over the entire frequency band, the modulation contrast was higher than 50% with a peak modulation contrast of 87% at 1.38 THz. For spatial light modulation, almost arbitrary spatial pixel sizes can be realized by grouping of mirrors that are collectively switched as a pixel. For fabrication of the actuatable mirrors, we exploited the intrinsic residual stress in chrome-copper-chrome multi-layers that forces the mirrors into an upstanding position at an inclination angle of 35°. By applying a bias voltage of 37 V, the mirrors were pulled down to the substrate. By hysteretic switching, we were able to spatially modulate terahertz radiation at arbitrary pixel modulation patterns.
Die vorliegende Arbeit lässt sich in drei Themengebiete unterteilen. Jedes davon kann durch ein Übergangsmetall der sechsten Nebengruppe repräsentiert werden. Ein Vertreter der sperrigen Alkylcyclopentadienyl-Liganden wurde stets als Hilfsligand verwendet. Mehr als 40 Komplexe des Chroms, Molybdäns und Wolframs mit sperrigen Cyclopentadienyl-Liganden konnten im Rahmen dieser Arbeit hergestellt und untersucht werden. Die meisten Strukturmotive konnten dabei röntgenkristallographisch aufgeklärt werden.
Mit dem synthetisch und sterisch besonders aufwändigen Pentaisopropyl-cyclopentadienyl-Liganden konnten allein sieben Chromkomplexe hergestellt und charakterisiert werden. Eine sehr hohe Reaktivität der Ausgangsverbindungen der Form [RCpCr(µ-Br)]2 mit RCp = Cp’’’ und 5Cp gegenüber Nucleophilen zeigte sich in Umsetzungen mit Natrium-cyclopentadieniden, Natrium-bis(trimethylsilyl)amid, einem N-heterocylischen Carben, unterschiedlichen Natrium-phenolaten, Natrium-phenylacetylid, unterschiedlichen Grignard-Reagenzien, Lithiumaluminiumhydrid, Natriumazid und Kaliumcyanid. Gemischt substituierte Pentaalkyl-Chromocene [Cp’’’CrCp’’] und [5CpCrCp] mit unterschiedlich substituierten Hilfsliganden konnten erfolgreich synthetisiert werden. Mit sperrigen Nucleophilen oder mit einem sperrigen N-heterocyclischen Carbenliganden wurden die Einkernkomplexe [RCpCrYL] mit der Kombination aus einem anionischen Liganden Y und einem neutralen Donorliganden L (Y/L = Br/NHC, CH3/NHC, N(SiMe3)2/THF und O(tBu)2C6H3/THF) gebildet. Die Umsetzungen der Chrom(II)-Ausgangsverbindungen mit Phenolato-Liganden lieferten Produkte mit unterschiedlichen Strukturmotiven je nach Sperrigkeit der Substituenten am aromatischen Sechsring des eingesetzten Liganden. Dabei konnte neben dem Einkernkomplex [Cp’’’Cr(O(tBu)2C6H3)(THF)] eine Zweikernverbindung [Cp’’’Cr(µ-OPh)]2 isoliert und kristallographisch aufgeklärt werden. Die µ,η1:η2-Koordination der Phenylacetylido-Brücken des Zweikernkomplexes [Cp’’’Cr(µ,η1:η2-C≡CPh)]2 konnte mittels Röntgenstrukturanalyse belegt werden. Die Umsetzungen der Bromido-verbrückten Ausgangsverbindungen mit Me- oder Ph-MgX erfolgten unter Bildung entsprechender Zweikernkomplexe mit Alkyl- oder Aryl-Brückenliganden. Beim Einsatz von Et- oder iPr-MgX gelang durch eine β-H-Eliminierung ein Zugang zu einer Hydrido-Spezies des Chroms mit der Form [RCpCr(µ-H)]2 mit RCp = Cp’’’ und 5Cp. Die Vierkernkomplexe [Cp’’’Cr(µ-X)]4 entstanden mit dem linear verbrückenden Cyanid oder mit Tetrahydridoaluminat als Nucleophil. [(Cp’’’Cr)3(µ3-N)4(CrBr)] wurde durch eine Umsetzung mit Azid unter Abspaltung von Distickstoff erhalten.
Ein Vertreter der Molybdän-Komplexe mit Acetato-Brücken [Cp’’Mo(µ-OAc)]2 konnte erhalten und anschließend mit Trimethylbromsilan weiter umgesetzt werden. Eine Oxidation der Metallzentren zu Molybdän(III) anstelle eines Austausches der verbrückenden Acetato-Liganden wurde dabei beobachtet.
Wolfram-Komplexe der Form [RCpW(CO)3CH3] mit RCp = Cp’’, Cr’’’, 23Cp und 4Cp wurden zunächst ausgehend von W(CO)6 synthetisiert und anschließend mit PCl5 und PBr5 halogeniert. Die isolierten Komplexe [RCpWCl4] und [RCpWBr4] mit RCp = Cp’’, Cr’’’, 23Cp und 4Cp konnten in guten Ausbeuten erhalten werden. Anschließende Reduktionen mit Mangan lieferten Zweikernkomplexe des Wolframs mit verbrückenden Halogenido-Liganden [RCpW(µ-Cl)2]2 und [RCpW(µ-Br)2]2 mit RCp = Cp’’, Cr’’’ und 4Cp. Neben [Cp’’W(CO)2(µ-I)]2 konnte durch Reduktion von [Cp’’W(CO)2I3] auch ein Vertreter der „semibridging“-Komplexe, [Cp’’W(CO)2]2, erhalten werden.