TY - JOUR A1 - Adesina, Morenike O. A1 - Block, Inga A1 - Günter, Christina A1 - Unuabonah, Emmanuel Iyayi A1 - Taubert, Andreas T1 - Efficient Removal of Tetracycline and Bisphenol A from Water with a New Hybrid Clay/TiO2 Composite JF - ACS Omega N2 - New TiO2 hybrid composites were prepared fromkaolinclay, predried and carbonized biomass, and titanium tetraisopropoxideand explored for tetracycline (TET) and bisphenol A (BPA) removalfrom water. Overall, the removal rate is 84% for TET and 51% for BPA.The maximum adsorption capacities (q (m))are 30 and 23 mg/g for TET and BPA, respectively. These capacitiesare far greater than those obtained for unmodified TiO2. Increasing the ionic strength of the solution does not change theadsorption capacity of the adsorbent. pH changes only slightly changeBPA adsorption, while a pH > 7 significantly reduces the adsorptionof TET on the material. The Brouers-Sotolongo fractal modelbest describes the kinetic data for both TET and BPA adsorption, predictingthat the adsorption process occurs via a complex mechanism involvingvarious forces of attraction. Temkin and Freundlich isotherms, whichbest fit the equilibrium adsorption data for TET and BPA, respectively,suggest that adsorption sites are heterogeneous in nature. Overall,the composite materials are much more effective for TET removal fromaqueous solution than for BPA. This phenomenon is assigned to a differencein the TET/adsorbent interactions vs the BPA/adsorbent interactions:the decisive factor appears to be favorable electrostatic interactionsfor TET yielding a more effective TET removal. Y1 - 2023 U6 - https://doi.org/10.1021/acsomega.3c00184 SN - 2470-1343 VL - 8 IS - 24 SP - 21594 EP - 21604 PB - American Chemical Society CY - Washington ER - TY - JOUR A1 - Mazarei, Elham A1 - Penschke, Christopher A1 - Saalfrank, Peter T1 - Band gap engineering in two-dimensional materials by functionalization BT - Methylation of graphene and graphene bilayers JF - ACS Omega N2 - Graphene is well-knownfor its unique combination of electricaland mechanical properties. However, its vanishing band gap limitsthe use of graphene in microelectronics. Covalent functionalizationof graphene has been a common approach to address this critical issueand introduce a band gap. In this Article, we systematically analyzethe functionalization of single-layer graphene (SLG) and bilayer graphene(BLG) with methyl (CH3) using periodic density functionaltheory (DFT) at the PBE+D3 level of theory. We also include a comparisonof methylated single-layer and bilayer graphene, as well as a discussionof different methylation options (radicalic, cationic, and anionic).For SLG, methyl coverages ranging from 1/8 to 1/1, (i.e.,the fully methylated analogue of graphane) are considered. We findthat up to a coverage theta of 1/2, graphene readily accepts CH3, with neighbor CH3 groups preferring trans positions. Above theta = 1/2, the tendency to accept further CH3 weakens and the lattice constant increases. The band gapbehaves less regularly, but overall it increases with increasing methylcoverage. Thus, methylated graphene shows potential for developingband gap-tuned microelectronics devices and may offer further functionalizationoptions. To guide in the interpretation of methylation experiments,vibrational signatures of various species are characterized by normal-modeanalysis (NMA), their vibrational density of states (VDOS), and infrared(IR) spectra, the latter two are obtained from ab initio moleculardynamics (AIMD) in combination with a velocity-velocity autocorrelationfunction (VVAF) approach. KW - Adsorption KW - Alkyls KW - Band structure KW - Electrical conductivity KW - Two dimensional materials Y1 - 2023 U6 - https://doi.org/10.1021/acsomega.3c02068 SN - 2470-1343 VL - 8 IS - 24 SP - 22026 EP - 22041 PB - American Chemical Society CY - Washington ER - TY - JOUR A1 - Kleinpeter, Erich A1 - Koch, Andreas T1 - The multiple bond character of the carbon-boron bond in boron trapped N-heterocyclic carbenes (NHCs) and cyclic(alkyl)(amino) carbenes (CAACs) on the magnetic criterion JF - Tetrahedron N2 - Geometry, 11B, 13C chemical shifts and the spatial magnetic properties (Through-Space NMR Shieldings -TSNMRS) of both cations and anions of boron-trapped N-heterocyclic carbenes (NHCs) and cyclic (alkyl)(amino)carbenes (CAACs) and of the corresponding diborane/diborene/diboryne dis-carbene adducts have been calculated using the GIAO perturbation method employing the nucleus independent chemical shift (NICS) concept; the TSNMRS results are visualized as iso-chemical-shielding surfaces (ICSS) of various size and direction. The ICSS of the TSNMRS (actually the anisotropy effects measurable in 1H NMR spectroscopy) are employed to qualify and quantify the present multiple bond character of the Carbene-Boron bond in the trapped NHCs and CAACs. Results are confirmed by bond length and 11B/13C chemical shift variations. Thus the partial multiple bond character of the Carbene-Boron bond cannot be expressed by the arrow of weak, much longer dative bonds and should be omitted as in other covalent lone pair-it or triel bonds. & COPY; 2023 Elsevier Ltd. All rights reserved. KW - NHCs KW - CAACs KW - Multiple NHC(CAAC)-Boron bonds KW - Through -space NMR KW - shieldings (TSNMRS) KW - NICS KW - Anisotropy effect KW - Ring current effect Y1 - 2023 U6 - https://doi.org/10.1016/j.tet.2023.133469 SN - 0040-4020 SN - 1464-5416 VL - 140 PB - Elsevier CY - Oxford ER - TY - JOUR A1 - Schlappa, Stephanie A1 - Bressel, Lena A1 - Reich, Oliver A1 - Münzberg, Marvin T1 - Advanced particle size analysis in high-solid-content polymer dispersions using photon density wave spectroscopy JF - Polymers N2 - High-solid-content polystyrene and polyvinyl acetate dispersions of polymer particles with a 50 nm to 500 nm mean particle diameter and 12-55% (w/w) solid content have been produced via emulsion polymerization and characterized regarding their optical and physical properties. Both systems have been analyzed with common particle-size-measuring techniques like dynamic light scattering (DLS) and static light scattering (SLS) and compared to inline particle size distribution (PSD) measurements via photon density wave (PDW) spectroscopy in undiluted samples. It is shown that particle size measurements of undiluted polystyrene dispersions are in good agreement between analysis methods. However, for polyvinyl acetate particles, size determination is challenging due to bound water in the produced polymer. For the first time, water-swelling factors were determined via an iterative approach of PDW spectroscopy error (X-2) minimization. It is shown that water-swollen particles can be analyzed in high-solid-content solutions and their physical properties can be assumed to determine the refractive index, density, and volume fraction in dispersion. It was found that assumed water swelling improved the reduced scattering coefficient fit by PDW spectroscopy by up to ten times and particle size determination was refined and enabled. Particle size analysis of the water-swollen particles agreed well with offline-based state-of-the-art techniques. KW - emulsion polymerization KW - multiple light scattering KW - photon density wave KW - spectroscopy KW - particle sizing KW - swelling of polymers Y1 - 2023 U6 - https://doi.org/10.3390/polym15153181 SN - 2073-4360 VL - 15 IS - 15 PB - MDPI CY - Basel ER - TY - JOUR A1 - Xu, Yaolin A1 - Dong, Kang A1 - Jie, Yulin A1 - Adelhelm, Philipp A1 - Chen, Yawei A1 - Xu, Liang A1 - Yu, Peiping A1 - Kim, Junghwa A1 - Kochovski, Zdravko A1 - Yu, Zhilong A1 - Li, Wanxia A1 - LeBeau, James A1 - Shao-Horn, Yang A1 - Cao, Ruiguo A1 - Jiao, Shuhong A1 - Cheng, Tao A1 - Manke, Ingo A1 - Lu, Yan T1 - Promoting mechanistic understanding of lithium deposition and solid-electrolyte interphase (SEI) formation using advanced characterization and simulation methods: recent progress, limitations, and future perspectives JF - Avanced energy materials N2 - In recent years, due to its great promise in boosting the energy density of lithium batteries for future energy storage, research on the Li metal anode, as an alternative to the graphite anode in Li-ion batteries, has gained significant momentum. However, the practical use of Li metal anodes has been plagued by unstable Li (re)deposition and poor cyclability. Although tremendous efforts have been devoted to the stabilization of Li metal anodes, the mechanisms of electrochemical (re-)deposition/dissolution of Li and solid-electrolyte-interphase (SEI) formation remain elusive. This article highlights the recent mechanistic understandings and observations of Li deposition/dissolution and SEI formation achieved from advanced characterization techniques and simulation methods, and discusses major limitations and open questions in these processes. In particular, the authors provide their perspectives on advanced and emerging/potential methods for obtaining new insights into these questions. In addition, they give an outlook into cutting-edge interdisciplinary research topics for Li metal anodes. It pushes beyond the current knowledge and is expected to accelerate development toward a more in-depth and comprehensive understanding, in order to guide future research on Li metal anodes toward practical application. KW - advanced characterization KW - Li deposition KW - Li dissolution KW - Li metal KW - anodes KW - mechanistic understanding KW - solid-electrolyte-interphase KW - theoretical simulation Y1 - 2022 U6 - https://doi.org/10.1002/aenm.202200398 SN - 1614-6832 SN - 1614-6840 VL - 12 IS - 19 PB - Wiley CY - Weinheim ER - TY - JOUR A1 - Mayer, Dennis A1 - Lever, Fabiano A1 - Picconi, David A1 - Metje, Jan A1 - Ališauskas, Skirmantas A1 - Calegari, Francesca A1 - Düsterer, Stefan A1 - Ehlert, Christopher A1 - Feifel, Raimund A1 - Niebuhr, Mario A1 - Manschwetus, Bastian A1 - Kuhlmann, Marion A1 - Mazza, Tommaso A1 - Robinson, Matthew Scott A1 - Squibb, Richard J. A1 - Trabattoni, Andrea A1 - Wallner, Måns A1 - Saalfrank, Peter A1 - Wolf, Thomas J. A. A1 - Gühr, Markus T1 - Following excited-state chemical shifts in molecular ultrafast x-ray photoelectron spectroscopy JF - Nature communications N2 - Imaging the charge flow in photoexcited molecules would provide key information on photophysical and photochemical processes. Here the authors demonstrate tracking in real time after photoexcitation the change in charge density at a specific site of 2-thiouracil using time-resolved X-ray photoelectron spectroscopy. The conversion of photon energy into other energetic forms in molecules is accompanied by charge moving on ultrafast timescales. We directly observe the charge motion at a specific site in an electronically excited molecule using time-resolved x-ray photoelectron spectroscopy (TR-XPS). We extend the concept of static chemical shift from conventional XPS by the excited-state chemical shift (ESCS), which is connected to the charge in the framework of a potential model. This allows us to invert TR-XPS spectra to the dynamic charge at a specific atom. We demonstrate the power of TR-XPS by using sulphur 2p-core-electron-emission probing to study the UV-excited dynamics of 2-thiouracil. The method allows us to discover that a major part of the population relaxes to the molecular ground state within 220-250 fs. In addition, a 250-fs oscillation, visible in the kinetic energy of the TR-XPS, reveals a coherent exchange of population among electronic states. Y1 - 2022 U6 - https://doi.org/10.1038/s41467-021-27908-y SN - 2041-1723 N1 - Publisher correction: https://doi.org/10.1038/s41467-022-28584-2 VL - 13 IS - 1 PB - Nature Research CY - Berlin ER - TY - JOUR A1 - Rothe, Martin A1 - Zhao, Yuhang A1 - Müller, Johannes A1 - Kewes, Günter A1 - Koch, Christoph T. A1 - Lu, Yan A1 - Benson, Oliver T1 - Self-assembly of plasmonic nanoantenna-waveguide structures for subdiffractional chiral sensing JF - ACS nano N2 - Spin-momentum locking is a peculiar effect in the near-field of guided optical or plasmonic modes. It can be utilized to map the spinning or handedness of electromagnetic fields onto the propagation direction. This motivates a method to probe the circular dichroism of an illuminated chiral object. In this work, we demonstrate local, subdiffraction limited chiral coupling of light and propagating surface plasmon polaritons in a self-assembled system of a gold nanoantenna and a silver nanowire. A thin silica shell around the nanowire provides precise distance control and also serves as a host for fluorescent molecules, which indicate the direction of plasmon propagation. We characterize our nanoantenna-nanowire systems comprehensively through correlated electron microscopy, energy-dispersive X-ray spectroscopy, dark-field, and fluorescence imaging. Three-dimensional numerical simulations support the experimental findings. Besides our measurement of far-field polarization, we estimate sensing capabilities and derive not only a sensitivity of 1 mdeg for the ellipticity of the light field, but also find 10(3) deg cm(2)/dmol for the circular dichroism of an analyte locally introduced in the hot spot of the antenna-wire system. Thorough modeling of a prototypical design predicts on-chip sensing of chiral analytes. This introduces our system as an ultracompact sensor for chiral response far below the diffraction limit. KW - plasmonics KW - nanoparticle assemblies KW - core-shell KW - spin-orbit coupling KW - chirality KW - circular dichroism KW - nano-optics Y1 - 2021 U6 - https://doi.org/10.1021/acsnano.0c05240 SN - 1936-0851 SN - 1936-086X VL - 15 IS - 1 SP - 351 EP - 361 PB - American Chemical Society CY - Washington ER - TY - JOUR A1 - Ning, Jiaoyi A1 - Yu, Hongtao A1 - Mei, Shilin A1 - Schütze, Yannik A1 - Risse, Sebastian A1 - Kardjilov, Nikolay A1 - Hilger, André A1 - Manke, Ingo A1 - Bande, Annika A1 - Ruiz, Victor G. A1 - Dzubiella, Joachim A1 - Meng, Hong A1 - Lu, Yan T1 - Constructing binder- and carbon additive-free organosulfur cathodes based on conducting thiol-polymers through electropolymerization for lithium-sulfur batteries JF - ChemSusChem N2 - Herein, the concept of constructing binder- and carbon additive-free organosulfur cathode was proved based on thiol-containing conducting polymer poly(4-(thiophene-3-yl) benzenethiol) (PTBT). The PTBT featured the polythiophene-structure main chain as a highly conducting framework and the benzenethiol side chain to copolymerize with sulfur and form a crosslinked organosulfur polymer (namely S/PTBT). Meanwhile, it could be in-situ deposited on the current collector by electro-polymerization, making it a binder-free and free-standing cathode for Li-S batteries. The S/PTBT cathode exhibited a reversible capacity of around 870 mAh g(-1) at 0.1 C and improved cycling performance compared to the physically mixed cathode (namely S&PTBT). This multifunction cathode eliminated the influence of the additives (carbon/binder), making it suitable to be applied as a model electrode for operando analysis. Operando X-ray imaging revealed the remarkable effect in the suppression of polysulfides shuttle via introducing covalent bonds, paving the way for the study of the intrinsic mechanisms in Li-S batteries. KW - electrochemistry KW - energy storage KW - lithium-sulfur batteries KW - operando KW - studies KW - organosulfur Y1 - 2022 U6 - https://doi.org/10.1002/cssc.202200434 SN - 1864-5631 SN - 1864-564X VL - 15 IS - 14 PB - Wiley CY - Weinheim ER - TY - JOUR A1 - Lau, Skadi A1 - Liu, Yue A1 - Maier, Anna A1 - Braune, Steffen A1 - Gossen, Manfred A1 - Neffe, Axel T. A1 - Lendlein, Andreas T1 - Establishment of an in vitro thrombogenicity test system with cyclic olefin copolymer substrate for endothelial layer formation JF - MRS communications / a publication of the Materials Research Society N2 - In vitro thrombogenicity test systems require co-cultivation of endothelial cells and platelets under blood flow-like conditions. Here, a commercially available perfusion system is explored using plasma-treated cyclic olefin copolymer (COC) as a substrate for the endothelial cell layer. COC was characterized prior to endothelialization and co-cultivation with platelets under static or flow conditions. COC exhibits a low roughness and a moderate hydrophilicity. Flow promoted endothelial cell growth and prevented platelet adherence. These findings show the suitability of COC as substrate and the importance of blood flow-like conditions for the assessment of the thrombogenic risk of drugs or cardiovascular implant materials. Y1 - 2021 U6 - https://doi.org/10.1557/s43579-021-00072-6 SN - 2159-6867 VL - 11 IS - 5 SP - 559 EP - 567 PB - Springer CY - Berlin ER - TY - JOUR A1 - Neusser, David A1 - Sun, Bowen A1 - Tan, Wen Liang A1 - Thomsen, Lars A1 - Schultz, Thorsten A1 - Perdigon-Toro, Lorena A1 - Koch, Norbert A1 - Shoaee, Safa A1 - McNeill, Christopher R. A1 - Neher, Dieter A1 - Ludwigs, Sabine T1 - Spectroelectrochemically determined energy levels of PM6:Y6 blends and their relevance to solar cell performance JF - Journal of materials chemistry : C, Materials for optical and electronic devices N2 - Recent advances in organic solar cell performance have been mainly driven forward by combining high-performance p-type donor-acceptor copolymers (e.g.PM6) and non-fullerene small molecule acceptors (e.g.Y6) as bulk-heterojunction layers. A general observation in such devices is that the device performance, e.g., the open-circuit voltage, is strongly dependent on the processing solvent. While the morphology is a typically named key parameter, the energetics of donor-acceptor blends are equally important, but less straightforward to access in the active multicomponent layer. Here, we propose to use spectral onsets during electrochemical cycling in a systematic spectroelectrochemical study of blend films to access the redox behavior and the frontier orbital energy levels of the individual compounds. Our study reveals that the highest occupied molecular orbital offset (Delta E-HOMO) in PM6:Y6 blends is similar to 0.3 eV, which is comparable to the binding energy of Y6 excitons and therefore implies a nearly zero driving force for the dissociation of Y6 excitons. Switching the PM6 orientation in the blend films from face-on to edge-on in bulk has only a minor influence on the positions of the energy levels, but shows significant differences in the open circuit voltage of the device. We explain this phenomenon by the different interfacial molecular orientations, which are known to affect the non-radiative decay rate of the charge-transfer state. We compare our results to ultraviolet photoelectron spectroscopy data, which shows distinct differences in the HOMO offsets in the PM6:Y6 blend compared to neat films. This highlights the necessity to measure the energy levels of the individual compounds in device-relevant blend films. Y1 - 2022 U6 - https://doi.org/10.1039/d2tc01918c SN - 2050-7526 SN - 2050-7534 VL - 10 IS - 32 SP - 11565 EP - 11578 PB - Royal Society of Chemistry CY - Cambridge ER - TY - JOUR A1 - Tung, Wing Tai A1 - Sun, Xianlei A1 - Wang, Weiwei A1 - Xu, Xun A1 - Ma, Nan A1 - Lendlein, Andreas T1 - Structure, mechanical properties and degradation behavior of electrospun PEEU fiber meshes and films JF - MRS advances : a journal of the Materials Research Society (MRS) N2 - The capability of a degradable implant to provide mechanical support depends on its degradation behavior. Hydrolytic degradation was studied for a polyesteretherurethane (PEEU70), which consists of poly(p-dioxanone) (PPDO) and poly(epsilon-caprolactone) (PCL) segments with a weight ratio of 70:30 linked by diurethane junction units. PEEU70 samples prepared in the form of meshes with average fiber diameters of 1.5 mu m (mesh1.5) and 1.2 mu m (mesh1.2), and films were sterilized and incubated in PBS at 37 degrees C with 5 vol% CO2 supply for 1 to 6 weeks. Degradation features, such as cracks or wrinkles, became apparent from week 4 for all samples. Mass loss was found to be 11 wt%, 6 wt%, and 4 wt% for mesh1.2, mesh1.5, and films at week 6. The elongation at break decreased to under 20% in two weeks for mesh1.2. In case of the other two samples, this level of degradation was achieved after 4 weeks. The weight average molecular weight of both PEEU70 mesh and film samples decreased to below 30 kg/mol when elongation at break dropped below 20%. The time period of sustained mechanical stability of PEEU70-based meshes depends on the fiber diameter and molecular weight. Y1 - 2021 U6 - https://doi.org/10.1557/s43580-020-00001-0 SN - 2059-8521 VL - 6 IS - 10 SP - 276 EP - 282 PB - Springer Nature Switzerland AG CY - Cham ER - TY - JOUR A1 - Stefancu, Andrei A1 - Nan, Lin A1 - Zhu, Li A1 - Chis, Vasile A1 - Bald, Ilko A1 - Liu, Min A1 - Leopold, Nicolae A1 - Maier, Stefan A. A1 - Cortes, Emiliano T1 - Controlling plasmonic chemistry pathways through specific ion effects JF - Advanced optical materials N2 - Plasmon-driven dehalogenation of brominated purines has been recently explored as a model system to understand fundamental aspects of plasmon-assisted chemical reactions. Here, it is shown that divalent Ca2+ ions strongly bridge the adsorption of bromoadenine (Br-Ade) to Ag surfaces. Such ion-mediated binding increases the molecule's adsorption energy leading to an overlap of the metal energy states and the molecular states, enabling the chemical interface damping (CID) of the plasmon modes of the Ag nanostructures (i.e., direct electron transfer from the metal to Br-Ade). Consequently, the conversion of Br-Ade to adenine almost doubles following the addition of Ca2+. These experimental results, supported by theoretical calculations of the local density of states of the Ag/Br-Ade complex, indicate a change of the charge transfer pathway driving the dehalogenation reaction, from Landau damping (in the lack of Ca2+ ions) to CID (after the addition of Ca2+). The results show that the surface dynamics of chemical species (including water molecules) play an essential role in charge transfer at plasmonic interfaces and cannot be ignored. It is envisioned that these results will help in designing more efficient nanoreactors, harnessing the full potential of plasmon-assisted chemistry. KW - chemical interface damping KW - Hofmeister effect KW - hydration layer KW - plasmonic chemistry KW - specific ion effects KW - surface-enhanced Raman scattering Y1 - 2022 U6 - https://doi.org/10.1002/adom.202200397 SN - 2195-1071 VL - 10 IS - 14 PB - Wiley-VCH CY - Weinheim ER - TY - JOUR A1 - Zhao, Yuhang A1 - Opitz, Andreas A1 - Eljarrat, Alberto A1 - Kochovski, Zdravko A1 - Koch, Christoph A1 - Koch, Norbert A1 - Lu, Yan T1 - Kinetic study on the adsorption of 2,3,5,6-tetrafluoro-7,7,8,8-tetracyanoquinodimethane on Ag nanoparticles in chloroform BT - implications for the charge transfer complex of Ag-F(4)TCNQ JF - ACS applied nano materials N2 - In this study, the kinetics of the adsorption of 2,3,5,6-tetrafluoro-7,7,8,8-tetracyanoquinodimethane (F(4)TCNQ) on the surface of Ag nanoparticles (Ag NPs) in chloroform has been intensively investigated, as molecular doping is known to play a crucial role in organic electronic devices. Based on the results obtained from UV-visible (vis)-near-infrared (NIR) absorption spectroscopy, cryogenic transmission electron microscopy, scanning nanobeam electron diffraction, and electron energy loss spectroscopy, a two-step interaction kinetics has been proposed for the Ag NPs and F(4)TCNQ molecules, which includes the first step of electron transfer from Ag NPs to F(4)TCNQ indicated by the ionization of F(4)TCNQ and the second step of the formation of a Ag-F(4)TCNQ complex. The whole process has been followed via UV-vis-NIR absorption spectroscopy, which reveals distinct kinetics at two stages: the instantaneous ionization and the long-term complex formation. The kinetics and the influence of the molar ratio of Ag NPs/F(4)TCNQ molecules on the interaction between Ag NPs and F(4)TCNQ molecules in an organic solution are reported herein for the first time. Furthermore, the control experiment with silica-coated Ag NPs manifests that the charge transfer at the surface between Ag NPs and F(4)TCNQ molecules is prohibited by a silica layer of 18 nm. KW - Ag nanoparticles KW - F(4)TCNQ KW - phase transfer KW - kinetics KW - electron transfer KW - surface interaction Y1 - 2021 U6 - https://doi.org/10.1021/acsanm.1c02153 SN - 2574-0970 VL - 4 IS - 11 SP - 11625 EP - 11635 PB - American Chemical Society CY - Washington ER - TY - JOUR A1 - Zhou, Shuo A1 - Xu, Xun A1 - Ma, Nan A1 - Jung, Friedrich A1 - Lendlein, Andreas T1 - Influence of sterilization conditions on sulfate-functionalized polyGGE JF - Clinical hemorheology and microcirculation : blood flow and vessels N2 - Sulfated biomolecules are known to influence numerous biological processes in all living organisms. Particularly, they contribute to prevent and inhibit the hypercoagulation condition. The failure of polymeric implants and blood contacting devices is often related to hypercoagulation and microbial contamination. Here, bioactive sulfated biomacromolecules are mimicked by sulfation of poly(glycerol glycidyl ether) (polyGGE) films. Autoclaving, gamma-ray irradiation and ethylene oxide (EtO) gas sterilization techniques were applied to functionalized materials. The sulfate group density and hydrophilicity of sulfated polymers were decreased while chain mobility and thermal degradation were enhanced post autoclaving when compared to those after EtO sterilization. These results suggest that a quality control after sterilization is mandatory to ensure the amount and functionality of functionalized groups are retained. KW - Sulfated polymer KW - sulfation KW - sterilization KW - ethylene oxide Y1 - 2021 U6 - https://doi.org/10.3233/CH-211241 SN - 1386-0291 SN - 1875-8622 VL - 79 IS - 4 SP - 597 EP - 608 PB - IOS Press CY - Amsterdam ER - TY - THES A1 - Mostafa, Amr T1 - DNA origami nanoforks: A platform for cytochrome c single molecule surface enhanced Raman spectroscopy N2 - This thesis presents a comprehensive exploration of the application of DNA origami nanofork antennas (DONAs) in the field of spectroscopy, with a particular focus on the structural analysis of Cytochrome C (CytC) at the single-molecule level. The research encapsulates the design, optimization, and application of DONAs in enhancing the sensitivity and specificity of Raman spectroscopy, thereby offering new insights into protein structures and interactions. The initial phase of the study involved the meticulous optimization of DNA origami structures. This process was pivotal in developing nanoscale tools that could significantly enhance the capabilities of Raman spectroscopy. The optimized DNA origami nanoforks, in both dimer and aggregate forms, demonstrated an enhanced ability to detect and analyze molecular vibrations, contributing to a more nuanced understanding of protein dynamics. A key aspect of this research was the comparative analysis between the dimer and aggregate forms of DONAs. This comparison revealed that while both configurations effectively identified oxidation and spin states of CytC, the aggregate form offered a broader range of detectable molecular states due to its prolonged signal emission and increased number of molecules. This extended duration of signal emission in the aggregates was attributed to the collective hotspot area, enhancing overall signal stability and sensitivity. Furthermore, the study delved into the analysis of the Amide III band using the DONA system. Observations included a transient shift in the Amide III band's frequency, suggesting dynamic alterations in the secondary structure of CytC. These shifts, indicative of transitions between different protein structures, were crucial in understanding the protein’s functional mechanisms and interactions. The research presented in this thesis not only contributes significantly to the field of spectroscopy but also illustrates the potential of interdisciplinary approaches in biosensing. The use of DNA origami-based systems in spectroscopy has opened new avenues for research, offering a detailed and comprehensive understanding of protein structures and interactions. The insights gained from this research are expected to have lasting implications in scientific fields ranging from drug development to the study of complex biochemical pathways. This thesis thus stands as a testament to the power of integrating nanotechnology, biochemistry, and spectroscopic techniques in addressing complex scientific questions. N2 - Diese Dissertation präsentiert eine umfassende Untersuchung der Anwendung von DNA-Origami-Nanogabelantennen (DONAs) im Bereich der Spektroskopie, mit einem besonderen Fokus auf der strukturellen Analyse von Cytochrom C (CytC) auf Einzelmolekülebene. Die Forschung umfasst das Design, die Optimierung und die Anwendung von DONAs zur Steigerung der Sensitivität und Spezifität der Raman-Spektroskopie und bietet somit neue Einblicke in Proteinstrukturen und -interaktionen. Die erste Phase der Studie beinhaltete die sorgfältige Optimierung von DNA-Origami-Strukturen. Dieser Prozess war entscheidend für die Entwicklung von Nanowerkzeugen, die die Fähigkeiten der Raman-Spektroskopie erheblich verbessern könnten. Die optimierten DNA-Origami-Nanogabeln, sowohl in Dimer- als auch in Aggregatform, zeigten eine verbesserte Fähigkeit, molekulare Schwingungen zu detektieren und zu analysieren, was zu einem nuancierteren Verständnis der Proteindynamik beitrug. Ein Schlüsselaspekt dieser Forschung war die vergleichende Analyse zwischen den Dimer- und Aggregatformen von DONAs. Dieser Vergleich zeigte, dass beide Konfigurationen effektiv Oxidations- und Spin-Zustände von CytC identifizieren konnten, wobei die Aggregatform aufgrund ihrer längeren Signalemission und der erhöhten Anzahl von Molekülen ein breiteres Spektrum an detektierbaren molekularen Zuständen bot. Die verlängerte Dauer der Signalemission in den Aggregaten wurde auf den kollektiven Hotspot-Bereich zurückgeführt, der die Gesamtsignalstabilität und -empfindlichkeit erhöhte. Darüber hinaus ging die Studie auf die Analyse der Amid-III-Bande unter Verwendung des DONA-Systems ein. Zu den Beobachtungen gehörte eine vorübergehende Verschiebung der Frequenz der Amid-III-Bande, was auf dynamische Veränderungen in der Sekundärstruktur von CytC hindeutete. Diese Verschiebungen, die auf Übergänge zwischen verschiedenen Proteinstrukturen hindeuteten, waren entscheidend für das Verständnis der funktionellen Mechanismen und Interaktionen des Proteins. Die in dieser Dissertation präsentierte Forschung leistet nicht nur einen bedeutenden Beitrag zum Gebiet der Spektroskopie, sondern veranschaulicht auch das Potenzial interdisziplinärer Ansätze in der Biosensorik. Der Einsatz von DNA-Origami-basierten Systemen in der Spektroskopie hat neue Wege für die Forschung eröffnet und bietet ein detailliertes und umfassendes Verständnis von Proteinstrukturen und -interaktionen. Die aus dieser Forschung gewonnenen Erkenntnisse werden voraussichtlich langfristige Auswirkungen auf wissenschaftliche Bereiche haben, die von der Arzneimittelentwicklung bis hin zur Untersuchung komplexer biochemischer Prozesse reichen. Diese Dissertation steht somit als Zeugnis für die Kraft der Integration von Nanotechnologie, Biochemie und spektroskopischen Techniken bei der Beantwortung komplexer wissenschaftlicher Fragen. KW - DNA origami KW - DNA origami nanoantennas (DONA) KW - SERS KW - Cytochrome C Y1 - 2024 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-635482 ER - TY - JOUR A1 - Michaelis, Vivien A1 - Aengenheister, Leonie A1 - Tuchtenhagen, Max A1 - Rinklebe, Jörg A1 - Ebert, Franziska A1 - Schwerdtle, Tanja A1 - Buerki-Thurnherr, Tina A1 - Bornhorst, Julia T1 - Differences and interactions in placental manganese and iron transfer across an in vitro model of human villous trophoblasts JF - International journal of molecular sciences N2 - Manganese (Mn) as well as iron (Fe) are essential trace elements (TE) important for the maintenance of physiological functions including fetal development. However, in the case of Mn, evidence suggests that excess levels of intrauterine Mn are associated with adverse pregnancy outcomes. Although Mn is known to cross the placenta, the fundamentals of Mn transfer kinetics and mechanisms are largely unknown. Moreover, exposure to combinations of TEs should be considered in mechanistic transfer studies, in particular for TEs expected to share similar transfer pathways. Here, we performed a mechanistic in vitro study on the placental transfer of Mn across a BeWo b30 trophoblast layer. Our data revealed distinct differences in the placental transfer of Mn and Fe. While placental permeability to Fe showed a clear inverse dose-dependency, Mn transfer was largely independent of the applied doses. Concurrent exposure of Mn and Fe revealed transfer interactions of Fe and Mn, indicating that they share common transfer mechanisms. In general, mRNA and protein expression of discussed transporters like DMT1, TfR, or FPN were only marginally altered in BeWo cells despite the different exposure scenarios highlighting that Mn transfer across the trophoblast layer likely involves a combination of active and passive transport processes. KW - manganese KW - iron KW - placental transfer KW - TE interactions KW - BeWo b30 KW - trophoblasts Y1 - 2022 U6 - https://doi.org/10.3390/ijms23063296 SN - 1422-0067 VL - 23 IS - 6 PB - MDPI CY - Basel ER - TY - GEN A1 - Bande, Annika A1 - González, Leticia A1 - Klamroth, Tillmann A1 - Tremblay, Jean Christophe T1 - Theoretical chemistry and quantum dynamics at interfaces BT - Celebrating the career of Peter Saalfrank on the occasion of his 60th birthday T2 - Chemical physics : a journal devoted to experimental and theoretical research involving problems of both a chemical and physical nature Y1 - 2022 U6 - https://doi.org/10.1016/j.chemphys.2022.111509 SN - 0301-0104 SN - 1873-4421 VL - 558 PB - Elsevier Science CY - Amsterdam [u.a.] ER - TY - JOUR A1 - Crovetto, Andrea A1 - Kojda, Danny A1 - Yi, Feng A1 - Heinselman, Karen N. A1 - LaVan, David A. A1 - Habicht, Klaus A1 - Unold, Thomas A1 - Zakutayev, Andriy T1 - Crystallize It before It diffuses BT - kinetic stabilization of thin-film phosphorus-rich semiconductor CuP2 JF - Journal of the american chemical society N2 - Numerous phosphorus-rich metal phosphides containing both P-P bonds and metal-P bonds are known from the solid-state chemistry literature. A method to grow these materials in thin-film form would be desirable, as thin films are required in many applications and they are an ideal platform for high-throughput studies. In addition, the high density and smooth surfaces achievable in thin films are a significant advantage for characterization of transport and optical properties. Despite these benefits, there is hardly any published work on even the simplest binary phosphorus-rich phosphide films. Here, we demonstrate growth of single-phase CuP2 films by a two-step process involving reactive sputtering of amorphous CuP2+x and rapid annealing in an inert atmosphere. At the crystallization temperature, CuP2 is thermodynamically unstable with respect to Cu3P and P-4. However, CuP2 can be stabilized if the amorphous precursors are mixed on the atomic scale and are sufficiently close to the desired composition (neither too P poor nor too P rich). Fast formation of polycrystalline CuP2, combined with a short annealing time, makes it possible to bypass the diffusion processes responsible for decomposition. We find that thin-film CuP2 is a 1.5 eV band gap semiconductor with interesting properties, such as a high optical absorption coefficient (above 10(5) cm(-1)), low thermal conductivity (1.1 W/(K m)), and composition-insensitive electrical conductivity (around 1 S/cm). We anticipate that our processing route can be extended to other phosphorus-rich phosphides that are still awaiting thin-film synthesis and will lead to a more complete understanding of these materials and of their potential applications. Y1 - 2022 U6 - https://doi.org/10.1021/jacs.2c04868 SN - 0002-7863 SN - 1520-5126 VL - 144 IS - 29 SP - 13334 EP - 13343 PB - American Chemical Society CY - Washington ER - TY - JOUR A1 - Tung, Wing Tai A1 - Maring, Janita A. A1 - Xu, Xun A1 - Liu, Yue A1 - Becker, Matthias A1 - Somesh, Dipthi Bachamanda A1 - Klose, Kristin A1 - Wang, Weiwei A1 - Sun, Xianlei A1 - Ullah, Imran A1 - Kratz, Karl A1 - Neffe, Axel T. A1 - Stamm, Christof A1 - Ma, Nan A1 - Lendlein, Andreas T1 - In vivo performance of a cell and factor free multifunctional fiber mesh modulating postinfarct myocardial remodeling JF - Advanced Functional Materials N2 - Guidance of postinfarct myocardial remodeling processes by an epicardial patch system may alleviate the consequences of ischemic heart disease. As macrophages are highly relevant in balancing immune response and regenerative processes their suitable instruction would ensure therapeutic success. A polymeric mesh capable of attracting and instructing monocytes by purely physical cues and accelerating implant degradation at the cell/implant interface is designed. In a murine model for myocardial infarction the meshes are compared to those either coated with extracellular matrix or loaded with induced cardiomyocyte progenitor cells. All implants promote macrophage infiltration and polarization in the epicardium, which is verified by in vitro experiments. 6 weeks post-MI, especially the implantation of the mesh attenuates left ventricular adverse remodeling processes as shown by reduced infarct size (14.7% vs 28-32%) and increased wall thickness (854 mu m vs 400-600 mu m), enhanced angiogenesis/arteriogenesis (more than 50% increase compared to controls and other groups), and improved heart function (ejection fraction = 36.8% compared to 12.7-31.3%). Upscaling as well as process controls is comprehensively considered in the presented mesh fabrication scheme to warrant further progression from bench to bedside. KW - bioinstructive materials KW - cardiac regeneration KW - function by structure; KW - modulation of in vivo regeneration KW - multifunctional biomaterials Y1 - 2022 U6 - https://doi.org/10.1002/adfm.202110179 SN - 1616-301X SN - 1616-3028 VL - 32 IS - 31 PB - Wiley CY - Weinheim ER - TY - JOUR A1 - Breternitz, Joachim A1 - Schorr, Susan T1 - Symmetry relations in wurtzite nitrides and oxide nitrides and the curious case of Pmc2(1) JF - Acta crystallographica / International Union of Crystallography. Section A, Foundations and advances N2 - Binary III-V nitrides such as AlN, GaN and InN in the wurtzite-type structure have long been considered as potent semiconducting materials because of their optoelectronic properties, amongst others. With rising concerns over the utilization of scarce elements, a replacement of the trivalent cations by others in ternary and multinary nitrides has led to the development of different variants of nitrides and oxide nitrides crystallizing in lower-symmetry variants of wurtzite. This work presents the symmetry relationships between these structural types specific to nitrides and oxide nitrides and updates some prior work on this matter. The non-existence of compounds crystallizing in Pmc2(1), formally the highest subgroup of the wurtzite type fulfilling Pauling's rules for 1:1:2 stoichiometries, has been puzzling scientists for a while; a rationalization is given, from a crystallographic basis, of why this space group is unlikely to be adopted. KW - group-subgroup relationships KW - nitride materials KW - wurtzite type Y1 - 2021 U6 - https://doi.org/10.1107/S2053273320015971 SN - 2053-2733 VL - 77 IS - 3 SP - 208 EP - 216 PB - Blackwell CY - Oxford [u.a.] ER -