Global ETD Search

141	Solvation-Driven Actuation of Anion-Exchange Membranes Ulbricht, Nicco, Boldini, Alain, Bae, Chulsung, Wallmersperger, Thomas, Porfir, Maurizio 11 June 2024 (has links) Ion-exchange membranes, conventionally utilized in separation processes of electrolyte solutions, are electroactive polymers that display a unique coupling between electrochemistry and mechanics. Previous experimental studies have demonstrated the possibility of actuating cation-exchange membranes in salt solution through the application of a remote external electric field. The use of anion-exchange membranes as contactless actuators, however, has never been documented and little is known about the physics of their actuation. Here, it is reported for the first time the possibility of contactless actuating anion-exchange membranes in salt solutions; such an actuation is mediated by the selection of anions in the external salt solution and the membrane. Actuation is attributed to the physical phenomenon of solvation, the interaction between ions and solvent in solution. Contrary to previous studies with cation-exchange membranes, the results show that anion-exchange membranes consistently bend toward the anode. The integration of anion-exchange and cation-exchange membranes in composites promises innovative programmable contactless actuators, with applications in underwater robotics and biomedical engineering. info:eu-repo/classification/ddc/540 ddc:540 info:eu-repo/classification/ddc/660 ddc:660
142	Crystal Growth, Structure, and Noninteracting Quantum Spins in Cyanochroite, K₂Cu(SO₄)₂·6H₂O Peets, Darren C., Avdeev, Maxim, Rahn, Marein C., Pabst, Falk, Granovsky, Sergey, Stötzer, Markus, Inosov, Dmytro S. 04 June 2024 (has links) The rare mineral cyanochroite, K2Cu(SO4)2·6H2O, features isolated Cu2+ ions in distorted octahedral coordination, linked via a hydrogen-bond network. We have grown single crystals of cyanochroite as large as ∼0.5 cm3 and investigated structural and magnetic aspects of this material. The positions of hydrogen atoms deviate significantly from those reported previously based on X-ray diffraction data, whereas the magnetic response is fully consistent with free Cu2+ spins. The structure is not changed by deuteration. Density functional theory calculations support our refined hydrogen positions. info:eu-repo/classification/ddc/540 ddc:540 info:eu-repo/classification/ddc/660 ddc:660
143	Role of Exchange Interactions in the Magnetic Response and Intermolecular Recognition of Chiral Molecules Dianat, Arezoo, Gutierrez, Rafael, Alpern, Hen, Mujica, Vladimiro, Ziv, Amir, Yochelis, Shira, Millo, Oded, Paltiel, Yossi, Cuniberti, Gianaurelio 02 May 2024 (has links) The physical origin of the so-called chirality-induced spin selectivity (CISS) effect has puzzled experimental and theoretical researchers over the past few years. Early experiments were interpreted in terms of unconventional spin–orbit interactions mediated by the helical geometry. However, more recent experimental studies have clearly revealed that electronic exchange interactions also play a key role in the magnetic response of chiral molecules in singlet states. In this investigation, we use spin-polarized closed-shell density functional theory calculations to address the influence of exchange contributions to the interaction between helical molecules as well as of helical molecules with magnetized substrates. We show that exchange effects result in differences in the interaction properties with magnetized surfaces, shedding light into the possible origin of two recent important experimental results: enantiomer separation and magnetic exchange force microscopy with AFM tips functionalized with helical peptides. info:eu-repo/classification/ddc/540 ddc:540 info:eu-repo/classification/ddc/660 ddc:660
144	Entwicklung einer Plattform zur Generierung von Stop-Flow- Gradienten zur Untersuchung von Chemotaxis Xiao, Zuyao, Nsamela, Audrey, Garlan, Benjamin, Simmchen, Juliane 22 April 2024 (has links) Die Fähigkeit künstlicher Mikroschwimmer, auf äußere Reize zu reagieren und deren mechanistische Ursprünge, gehören zu den umstrittensten Fragen der interdisziplinären Wissenschaft. Die Erzeugung chemischer Gradienten ist dabei eine technische Herausforderung, da sie aufgrund von Diffusion schnell abflachen. Inspiriert von ‘Stop-flow’ Experimenten aus der chemischen Kinetik zeigen wir, dass die Erzeugung eines mikrofluidischen Gradienten durch Kombination mit einer Druckrückkopplungsschleife zur präzisen Kontrolle des Stoppens erfolgen kann. Das ermöglicht es uns, die mechanistischen Details der Chemotaxis von künstlichen katalytischen Janus-Mikromotoren zu untersuchen. Wir stellen fest, dass diese Kupfer-Janus-Partikel eine chemotaktische Bewegung entlang des Konzentrationsgradienten sowohl in positiver als auch in negativer Richtung zeigen, und wir demonstrieren die mechanische Reaktion der Partikel auf unausgewogene Widerstandskräfte, die dieses Verhalten erklären. info:eu-repo/classification/ddc/540 ddc:540 info:eu-repo/classification/ddc/660 ddc:660
145	Ein Helikales Zweischichtiges Nichtbenzoides Nanographen als [10]Helicen mit Zwei Eingebetteten Heptagonalen Ringen Yang, Lin, Ju, Yang-Yang, Medel, Miguel A., Fu, Yubin, Komber, Hartmut, Dmitrieva, Evgenia, Zhang, Jin-Jiang, Obermann, Sebastian, Campaña, Araceli G., Ma, Ji, Feng, Xinliang 22 April 2024 (has links) Die atomgenaue Synthese von helikalen mehrschichtigen Nanographenen (NG) neuer Topologie ist aufgrund ihrer exotischen physikochemischen Eigenschaften von substanziellem Interesse. Allerdings ist die Synthese dieser Nanographene, speziell mit nicht benzoiden Ringen, äußerst herausfordernd. Wir präsentieren in diesem Artikel die effiziente Synthese des ersten helikalen zweischichtigen nichtbenzoiden Nanographens (HBNG1) ausgehend von einem maßgeschneiderten Azulen-Vorläufer, welcher bereits das neuartige Strukturelement zweier in [10]Helicen eingebetteter heptagonaler Ringe enthält. Die Einkristalldiffraktometrie gibt Einblick in die sterisch stark gespannte Doppelschichtstruktur mit einem Rekordwert für den kleinsten Interschichtabstand von nur 3.2 Å, in der Substanzklasse der doppelschichtigen Nanographene. Bemerkenswerterweise kommt es im Raum zwischen den Schichten zu π–π Wechselwirkungen. Wir untersuchten diesen Effekt durch in situ Spektroelektrochemie und Simulationen mittels Dichtefunktionaltheorie (DFT). Des Weiteren wurden die chiroptischen Eigenschaften der P/M-Enantiomere von HBNG1 durch Zirkulardichroismus und zirkular polarisierter Fluoreszenz charakterisiert. info:eu-repo/classification/ddc/540 ddc:540 info:eu-repo/classification/ddc/660 ddc:660
146	Kinetic studies of Char Gasification Reaction: (Influence of elevated pressures and the applicability of thermogravimetric analysis) Abosteif, Ziad 15 April 2024 (has links) The thesis primarily focuses on the pressure influence on the reaction rate of char gasification using laboratory thermogravimetric analysis (TGA). It discusses also the gasification of char with a mixture of gasifying agents (CO2 + steam) under a pressure of 40 bar and temperatures up to 1100°C, which has not been reported in the literature to the best of found knowledge. The first section investigates the pressure impact on char gasification kinetics by varying the total and partial pressure of the gasifying agent. The second section investigates the effect of gasifying agent at 40 bar and combining the pyrolysis step in the investigation, which was done in-situ under inert atmosphere. Then, mixtures of the two gasifying agents were used for the gasification in separate experiments. The third section uses raw coal as material and gives attention to the char structure formed after the pyrolysis under the high pressure. The fourth section includes measurements for char characteristics during the gasification reaction and compares them with the reference char data performed previously in this research group under atmospheric pressure.:Abstract 1. Introduction 1 1.1 Scope of the thesis 1 1.2 Layout of the thesis 2 2. Literature Review 4 2.1 Background 4 2.2 Coal and gasification 5 2.2.1 Coal classification and characteristics 5 2.2.2 Introduction to gasification process 7 2.2.3 Coal Analysis 10 2.2.4 Pyrolysis 13 2.2.5 Gasification reactions 13 2.2.6 Mechanism of solid-gas reaction and Thermodynamic background 14 2.2.7 Regimes of gas-Solid Reactions 17 2.2.8 Summary 19 2.3 Effect of Pressure on gasification process 20 2.3.1 Advantages of high-pressure operation 20 2.3.2 Influence on the pyrolysis step 20 2.3.3 Effect of Pressure on coal swelling 21 2.3.4 Pressure influence on char morphology 23 2.3.5 Effect of pyrolysis pressure on char surface area 23 2.3.6 Effect on reaction order n 24 2.3.7 Summary 24 2.4 Pressure influence on char gasification reaction kinetics 24 2.4.1 Pressure influence on gasification reaction kinetics 25 2.4.2 Summary 27 2.5 Char gasification using gasifying agent mixtures 27 2.5.1 Mechanism 29 2.5.2 The role of the inhibition and the catalytic effect 29 2.5.3 Summary 32 2.6 Thermodynamic aspects and the estimation of the reaction rate 32 2.6.1 Background 32 2.6.2 Basic definitions of reaction rate 34 2.6.3 Intrinsic kinetic models 35 2.6.4 Theoretical models 36 2.6.5 Empiric Models 39 2.6.6 Intrinsic kinetic models expressed by CO2 concentration 40 2.6.7 Arrhenius Activation Energy 40 2.6.8 Differentiation of a polynomial fit data (Differential method): 41 2.6.9 Summary 43 3. Experimental Analysis 44 3.1 Thermogravimetry 44 3.2 Testing of the gas volume fraction and the total pressure influence on char gasification 45 3.2.1 Testing of the gas volume fraction influence 45 3.2.2 Testing of system pressure influence on char gasification 56 3.2.3 Discussion 65 3.3 Coal gasification at 40 bar with pure CO2, H2O and their mixtures 65 3.3.1 Gasification with pure CO2 and H2O 66 3.3.2 Coal gasification using CO2 / H2O mixtures at high system pressure 87 3.3.3 Discussion 96 3.4 Pressure influence on coal gasification 100 3.4.1 Coal gasification under different system pressures 100 3.4.2 The effect of increasing pressure on coal morphology 104 3.4.3 Discussion 117 3.5 Influence of the pressure on the char properties during gasification 118 3.5.1 Discussion 129 4. General discussion 134 5. Conclusions 139 5.1 Significance of the findings 143 5.2 Recommendations 144 6. Appendix 146 6.1 Literature and Results 146 6.1.1 Conditions influence on gasification of the (a) temperature, (b) partial pressure 146 6.1.2 TGA-DMT 147 6.1.3 Testing of the gas volume fraction influence on coal gasification 148 6.1.4 Testing of system pressure influence on char gasification 150 6.1.5 Coal gasification at 40 bar with pure CO2, H2O and their mixtures 152 6.1.6 Coal gasification under different pressures 162 6.1.7 Summary of gas mixture gasification studies 167 6.2 Figures Index 169 6.3 Tables Index 175 6.4 References 177 info:eu-repo/classification/ddc/660 ddc:660 Pyrolyse Kohlevergasung Reaktionskinetik Druckabhängigkeit Thermogravimetrie Oberflächenanalyse Isotherme
147	Crucial Role of Silica-Alumina Binder Mixtures for Hydrocarbon Cracking with ZSM‑5 Additives Haufe, Liane A., Timoshev, Vladislav, Seifert, Markus, Busse, Oliver, Weigand, Jan J. 16 May 2024 (has links) Alumina-containing binders are widely used for the binding of catalyst particles by spray drying and calcination. As a part of the active matrix, they contribute to the catalytic performance of the resulting catalyst grain during hydrocarbon cracking. In this study, correlations are investigated using different compositions of Al- and Si-based binders (AlCl3 and colloidal silica) together with kaolin as a filler and ZSM-5 zeolite as an active compound. It was demonstrated that the conversion of a 50:50 hexane mixture, the selectivity toward unsaturated hydrocarbons, and the shape-selective conversion of the hexane feed are highly dependent on the amount and distribution of alumina in binder formulations. While silica species are distributed near the outer shell of catalyst grains, the alumina species are distributed evenly as an adhesive between the catalyst compounds ZSM-5 and kaolin. An optimum amount of alumina in binder formulations results in an increasing conversion of hydrocarbon feedstock due to optimum in active-site accessibility but only a slight decrease in shape-selective properties compared to pure ZSM-5, resulting in an optimum yield of light olefins, especially propylene. info:eu-repo/classification/ddc/540 ddc:540 info:eu-repo/classification/ddc/660 ddc:660
148	Strong Antibiotic Activity of the Myxocoumarin Scaffold in vitro and in vivo Hertrampf, Gesa, Kusserow, Kalina, Vojnovic, Sandra, Pavic, Aleksandar, Müller, Jonas I., Nikodinovic-Runic, Jasmina, Gulder, Tobias A. M. 16 May 2024 (has links) The increasing emergence of resistances against established antibiotics is a substantial threat to human health. The discovery of new compounds with potent antibiotic activity is thus of utmost importance. Within this work, we identify strong antibiotic activity of the natural product myxocoumarin B from Stigmatella aurantiaca MYX-030 against a range of clinically relevant bacterial pathogens, including clinical isolates of MRSA. A focused library of structural analogs was synthesized to explore initial structure-activity relationships and to identify equipotent myxocoumarin derivatives devoid of the natural nitro substituent to significantly streamline synthetic access. The cytotoxicity of the myxocoumarins as well as their potential to cure bacterial infections in vivo was established using a zebrafish model system. Our results reveal the exceptional antibiotic activity of the myxocoumarin scaffold and hence its potential for the development of novel antibiotics. info:eu-repo/classification/ddc/540 ddc:540 info:eu-repo/classification/ddc/660 ddc:660
149	A Logic Gate Based on a Flexible Metal–Organic Framework (JUK-8) for the Concomitant Detection of Hydrogen and Oxygen Roztocki, Kornel, Bon, Volodymyr, Senkovska, Irena, Matoga, Dariusz, Kaskel, Stefan 22 May 2024 (has links) We present an autonomous, chemical logic gate based on a switchable metal–organic framework (MOF) composite, containing carbon nanoparticles and a Pt catalyst. The switchable MOF composite performs as AND logic gate. Hydrogen and oxygen gas streams serve as binary inputs. Catalytically formed water induces a structural transition (crystal volume expansion) of the MOF, and as a consequence, a detectable drop in conductance of the composite as a ‘true’ output only if both gases come in contact with the composite. info:eu-repo/classification/ddc/540 ddc:540 info:eu-repo/classification/ddc/660 ddc:660
150	Hybride semi-parametrische Modellierung der thermooxidativen Stabilisierung von PAN-Precursorfasern Mädler, Jonathan, Richter, Benjamin, Wolz, Daniel S. J., Behnisch, Thomas, Böhm, Robert, Jäger, Hubert, Gude, Maik, Urbas, Leon 22 May 2024 (has links) Kohlenstofffasern sind aufgrund ihrer hohen massespezifischen mechanischen Belastbarkeit ein unverzichtbarer Werkstoff im Leichtbau. Diese werden mittels eines zeitaufwendigen, thermooxidativen Stabilisierungs- und eines inerten Carbonisierungsprozesses hergestellt. Bedingt durch die kommerziell dominierte Forschung basiert der Großteil der veröffentlichten Optimierungsansätze für diese Prozessschritte bis heute auf unvollständigen, empirischen oder nicht-parametrischen, datengetriebenen Modellen. In der vorliegenden Arbeit werden hybride semi-parametrische Ansätze unter Berücksichtigung der Eigenschaften des Precursorsystems und der Prozessparameter für die Modellierung des Stabilisierungsprozesses untersucht. / Carbon fibers are an indispensable material in lightweight construction due to their mass-specific mechanical load capaci-ty. These are produced by means of a time-consuming, thermo-oxidative stabilization process and an inert carbonizationprocess. Due to commercially dominated research, the majority of published optimization approaches for these processsteps to date is based on incomplete, empirical or non-parametric, data-driven models. In the present work, hybrid semi-parametric approaches considering the properties of the precursor system and the process parameters are investigated formodeling of the stabilization process. info:eu-repo/classification/ddc/540 ddc:540 info:eu-repo/classification/ddc/660 ddc:660

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