Universität Stuttgart
Permanent URI for this communityhttps://elib.uni-stuttgart.de/handle/11682/1
Browse
373 results
Search Results
Item Open Access Redox-acid/base phase diagrams as an entry to computational redox chemistry(2024) Becker, Patrick M.; Heinze, Katja; Sarkar, Biprajit; Kästner, JohannesThe rapid depletion of fossil fuels and the change from conventional energy supply to so‐called sustainable and renewable energy sources have led to a renaissance of electrochemical, photochemical, and photoelectrochemical methods for chemical synthesis. While drastic experimental improvements have been realized in recent years, systematic computational studies of these types of reactions are, however, rather limited caused by a lack of suitable representations. Herein we present a generalized method to investigate and analyze a chemical system with respect to its redox‐ and acid/base‐properties based on Gibbs free‐energy differences. We represent the results in a clear manner by means of redox-acid/base phase diagrams. Motivated by computational needs, the presented method is a direct link between experimentally measurable values and Gibbs free‐energy profiles, connecting experiment and simulation. Thus, it serves as an entry to systematic computational studies of reactions, which involve a combination of electron transfers and acid/base‐chemical reaction steps, because it enables the representation of both thermodynamic and kinetic properties. The presented method is applied to four exemplary systems: Phenol, dicobaltocenium amine as a proton‐coupled electron transfer (PCET) reactant, and two porphyrin Ni II catalysts for the electrocatalytic hydrogen evolution reaction (HER).Item Open Access Specific DNMT3C flanking sequence preferences facilitate methylation of young murine retrotransposons(2024) Dossmann, Leonie; Emperle, Max; Dukatz, Michael; de Mendoza, Alex; Bashtrykov, Pavel; Jeltsch, AlbertThe DNA methyltransferase DNMT3C appeared as a duplication of the DNMT3B gene in muroids and is required for silencing of young retrotransposons in the male germline. Using specialized assay systems, we investigate the flanking sequence preferences of DNMT3C and observe characteristic preferences for cytosine at the -2 and -1 flank that are unique among DNMT3 enzymes. We identify two amino acids in the catalytic domain of DNMT3C (C543 and V547) that are responsible for the DNMT3C-specific flanking sequence preferences and evolutionary conserved in muroids. Reanalysis of published data shows that DNMT3C flanking preferences are consistent with genome-wide methylation patterns in mouse ES cells only expressing DNMT3C. Strikingly, we show that CpG sites with the preferred flanking sequences of DNMT3C are enriched in murine retrotransposons that were previously identified as DNMT3C targets. Finally, we demonstrate experimentally that DNMT3C has elevated methylation activity on substrates derived from these biological targets. Our data show that DNMT3C flanking sequence preferences match the sequences of young murine retrotransposons which facilitates their methylation. By this, our data provide mechanistic insights into the molecular co-evolution of repeat elements and (epi)genetic defense systems dedicated to maintain genomic stability in mammals.Item Open Access Understanding the temperature-induced decomposition of commercial nickel-cobalt-aluminum oxide (LiNi0.8Co0.15Al0.05O2) electrodes(2025) Hölderle, Tobias; Baran, Volodymyr; Schökel, Alexander; Westphal, Lea; Stelzer, Robert U.; Niewa, Rainer; Müller‐Buschbaum, Peter; Senyshyn, AnatoliyThis study addresses the thermal degradation and structural stability of the NCA (nickel-cobalt-aluminum oxide) cathode materials under varying states of charge (SOC)/delithiation and temperature. Using simultaneous thermogravimetric and differential thermal analysis and high‐resolution X‐ray diffraction, the sequential evolution from a layered NaCrS2‐type structure to spinel phases (M3O4‐type and LiM2O4‐type) and finally to a rock salt phase is characterized. Degradation involves cation migration, oxygen release, and lattice instabilities, influenced by SOC/lithium content. Fully lithiated NCA (SOC 0%) exhibits superior thermal stability with a single‐step transition, whereas partially delithiated NCA exhibits a multistep transformation process involving spinel intermediates. These findings highlight the complex interplay between energy density and thermal safety, offering guidance for designing NCA cathodes with optimized performance, safety, and stability for high‐energy lithium‐ion batteries.Item Open Access The impact of donor‐orientation on the emission properties of chlorinated trityl radicals(2025) Arnold, Mona E.; Toews, Robert; Schneider, Lars; Schmid, Jonas; Putra, Miftahussurur Hamidi; Busch, Michael; Groß, Axel; Deschler, Felix; Köhn, Andreas; Kuehne, Alexander J. C.Chlorinated trityl radicals functionalized with electron‐donating groups are promising red‐emitting materials for optoelectronic and spintronic applications, overcoming the spin‐statistical limit of conventional emitters. Donor functionalization induces charge transfer character, enhancing photoluminescence quantum yield, which depends on the donor strength and its orientation. However, donor‐functionalized tris(trichlorophenyl)methyl radicals often show lower quantum yield than their perchlorinated derivatives, likely due to weaker donor‐acceptor electronic coupling and enhanced non‐radiative decay. A novel trityl derivative is presented with two additional chlorines that restrict the orientation of the donor to a nearly perpendicular arrangement toward the trityl plane, minimizing vibronic coupling and non‐radiative losses. Spectroscopic and computational studies reveal that this steric constraint improves the photoluminescence quantum yield compared to the tris(trichlorophenyl)methyl analogs. These findings highlight the potential of donor‐acceptor decoupling to enable efficient, redshifted emission, offering a design strategy for high‐performance radical emitters.Item Open Access Thin film growth and structural investigation of DyBa2Cu3O7-δ(2020) Putzky, Daniel; Keimer, Bernhard (Prof. Dr.)Item Open Access Campherchinoniminliganden und ihr Elektronentransferverhalten unter Metallkoordination an Rhenium und Mangan(2021) Blickle, Svenja; Kaim, Wolfgang (Prof. Dr. phil. nat.)Die vorliegende Arbeit beschäftigt sich mit der Synthese und dem Koordinations- und Elektronentransferverhalten von neuen redoxaktiven Campherchinoniminliganden und deren Komplexe mit dem Metallkomplexfragment M(CO)3Cl mit M = Re, Mn. Der Fokus liegt dabei auf der Untersuchung der redoxchemischen Eigenschaften von dinuklearen Komplexen, bei welchen die Metalle über einen Bischelatliganden verbrückt sind. So konnten Einblicke in die elektronische Struktur der Verbindungen in neutraler, radikalanionischer und dianionischer Form gewonnen werden. Zur Charakterisierung dieser neuen Verbindungen kommen zum Einsatz: CHN-Elementaranalyse, Massenspektrometrie, Kristallstrukturanalyse, Cyclovoltammetrie, 1H-NMR-, IR-, UV/Vis/NIR- und EPR-Spektroskopie und Spektroelektrochemie. Die experimentellen Ergebnisse werden mit Hilfe von quantenchemischen Methoden (DFT) unterstützt. So konnte für diese Art von Verbindungen eine neue Art von gemischtvalenten Metallkomplexen etabliert werden: Die Reduktionen finden ligandenzentriert statt und die Ladungsverteilung der radikalanionischen Spezies konnte als asymmetrisch lokalisiert nachgewiesen werden. Somit handelt es sich bei den hier vorgestellten zweikernigen einfach reduzierten Komplexen um organisch-gemischtvalente Verbindungen unter homovalenter Metallkoordination.Item Open Access Mechanistic insights into the allosteric regulation of the Clr4 protein lysine methyltransferase by autoinhibition and automethylation(2020) Khella, Mina S.; Bröhm, Alexander; Weirich, Sara; Jeltsch, AlbertClr4 is a histone H3 lysine 9 methyltransferase in Schizosaccharomyces pombe that is essential for heterochromatin formation. Previous biochemical and structural studies have shown that Clr4 is in an autoinhibited state in which an autoregulatory loop (ARL) blocks the active site. Automethylation of lysine residues in the ARL relieves autoinhibition. To investigate the mechanism of Clr4 regulation by autoinhibition and automethylation, we exchanged residues in the ARL by site-directed mutagenesis leading to stimulation or inhibition of automethylation and corresponding changes in Clr4 catalytic activity. Furthermore, we demonstrate that Clr4 prefers monomethylated (H3K9me1) over unmodified (H3K9me0) histone peptide substrates, similar to related human enzymes and, accordingly, H3K9me1 is more efficient in overcoming autoinhibition. Due to enzyme activation by automethylation, we observed a sigmoidal dependence of Clr4 activity on the AdoMet concentration, with stimulation at high AdoMet levels. In contrast, an automethylation-deficient mutant showed a hyperbolic Michaelis–Menten type relationship. These data suggest that automethylation of the ARL could act as a sensor for AdoMet levels in cells and regulate the generation and maintenance of heterochromatin accordingly. This process could connect epigenome modifications with the metabolic state of cells. As other human protein lysine methyltransferases (for example, PRC2) also use automethylation/autoinhibition mechanisms, our results may provide a model to describe their regulation as well.Item Open Access Untersuchungen zur Derivatisierung und Charakterisierung Carben-analoger N-heterozyklischer Halogenarsane(2021) Bender, Johannes; Gudat, Dietrich (Prof. Dr. Dr.)Die Chemie neutraler N-heterozyklischer Arsane konnte durch Synthese einer Reihe von Verbindungen mit funktionellen Substituenten am Arsen (Halogeno-, Pseudohalogeno-substituiert) erweitert sowie strukturelle und elektronische Verhältnisse aufgeklärt werden. Aus 2-Chloro-1,3,2-Diazaarsolidinen und -1,3,2-Diazaarsolenen konnten einige neue kationische Arsen-Analoga von N-heterozyklischen Carbenen hergestellt werden. Des Weiteren konnten noch unbekannte 2-Thiolato- und 2-Xanthogenato-1,3,2-Diazaarsolidine und -1,3,2-Diazaarsolene dargestellt und charakterisiert werden.Item Open Access Raising the COx methanation activity of a Ru/γ‐Al2O3 catalyst by activated modification of metal-support interactions(2020) Chen, Shilong; Abdel‐Mageed, Ali M.; Dyballa, Michael; Parlinska‐Wojtan, Magdalena; Bansmann, Joachim; Pollastri, Simone; Olivi, Luca; Aquilanti, Giuliana; Behm, R. JürgenRu/Al2O3 is a highly stable, but less active catalyst for methanation reactions. Herein we report an effective approach to significantly improve its performance in the methanation of CO2/H2 mixtures. Highly active and stable Ru/γ‐Al2O3 catalysts were prepared by high‐temperature treatment in the reductive reaction gas. Operando/in situ spectroscopy and STEM imaging reveals that the strongly improved activity, by factors of 5 and 14 for CO and CO2 methanation, is accompanied by a flattening of the Ru nanoparticles and the formation of highly basic hydroxylated alumina sites. We propose a modification of the metal-support interactions (MSIs) as the origin of the increased activity, caused by modification of the Al2O3 surface in the reductive atmosphere and an increased thermal mobility of the Ru nanoparticles, allowing their transfer to modified surface sites.Item Open Access The role of spacer length in macrocyclization reactions under confinement(2024) Nandeshwar, Muneshwar; Weisser, Kilian; Ziegler, Felix; Frey, Wolfgang; Buchmeiser, Michael R.We studied the influence of the distance of olefin metathesis catalysts from the inner surface of a mesoporous support on macrocyclization and Z‐selectivity under confinement. For these purposes, the cationic molybdenum imido alkylidene N‐heterocyclic carbene (NHC) catalysts [Mo(N‐(2‐tBu‐C6H4)(1‐mesityl‐3‐(3‐trimethoxysilylprop‐1‐yl)‐imidazol‐2‐ylidene)(CHCMe2Ph)(MeCN)Br+ B(ArF)4-] Mo2, [Mo(N‐(2‐tBu‐C6H4)(1‐mesityl‐3‐(3‐trimethoxysilylprop‐1‐yl)‐imidazol‐2‐ylidene)(CHCMe2Ph)(MeCN)OTf+ B(ArF)4-] Mo3, [Mo(N‐(2,6‐Me2‐C6H3)(1‐mesityl‐3‐(3‐trimethoxysilylprop‐1‐yl)‐imidazol‐2‐ylidene)(CHCMe2Ph)(MeCN)Br+ B(ArF)4-] Mo5, and [Mo(N‐(2,6‐iPr2‐C6H3)(1‐mesityl‐3‐(3‐trimethoxysilylprop‐1‐yl)‐imidazol‐2‐ylidene)(CHCMe2Ph)(MeCN)+Br B(ArF)4-] Mo7 (B(ArF)4 = tetrakis[3,5‐bis(trifluoromethyl)phenyl]borate), all containing a trimethoxysilylpropyl tether, were selectively immobilized inside the mesopores of SBA‐15. Under confinement, both macro(mono)cyclization (MMC) and Z‐selectivity were higher than in solution but lower than with catalysts directly bound to the surface of the mesoporous supports. These findings are in agreement with existing theoretical models on substrate and product distribution in mesopores, which suggest that the highest substrate concentration is found at the pore wall and that it increases with decreasing pore diameter.