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1. Ultrafast photoconductivity and terahertz vibrational dynamics in double-helix SnIP nanowires

Author

Purschke, David N., Pielmeier, Markus R. P., Üzer, Ebru, Ott, Claudia, Jensen, Charles, Degg, Annabelle, Vogel, Anna, Amer, Naaman, Nilges, Tom, and Hegmann, Frank A.

Subjects
Condensed Matter - Materials Science
Abstract

Tin iodide phosphide (SnIP), an inorganic double-helix material, is a quasi-1D van der Waals semiconductor that shows promise in photocatalysis and flexible electronics. However, our understanding of the fundamental photophysics and charge transport dynamics of this new material is limited. Here, we use time-resolved terahertz (THz) spectroscopy to probe the transient photoconductivity of SnIP nanowire films and, with insight into the highly anisotropic electronic structure from quantum chemical calculations, measure an electron mobility as high as 280 $cm^2V^{-1}s^{-1}$. Additionally, the THz vibrational spectrum reveals a photoexcitation-induced charge redistribution that reduces the amplitude of a twisting mode of the outer SnI helix on picosecond timescales. Finally, we show that the carrier lifetime and mobility are limited by a trap density greater than $10^{18}\,cm^{-3}$. Our results provide insight into the optical excitation and relaxation pathways of SnIP and demonstrate a remarkably high carrier mobility for such a soft and flexible material.

Published
2021
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2. Anisotropic moiré optical transitions in twisted monolayer/bilayer phosphorene heterostructures.

Author

Zhao, Shilong, Wang, Erqing, Üzer, Ebru Alime, Guo, Shuaifei, Qi, Ruishi, Tan, Junyang, Watanabe, Kenji, Taniguchi, Takashi, Nilges, Tom, Gao, Peng, Zhang, Yuanbo, Cheng, Hui-Ming, Liu, Bilu, Zou, Xiaolong, and Wang, Feng

Abstract

Moiré superlattices of van der Waals heterostructures provide a powerful way to engineer electronic structures of two-dimensional materials. Many novel quantum phenomena have emerged in graphene and transition metal dichalcogenide moiré systems. Twisted phosphorene offers another attractive system to explore moiré physics because phosphorene features an anisotropic rectangular lattice, different from isotropic hexagonal lattices previously reported. Here we report emerging anisotropic moiré optical transitions in twisted monolayer/bilayer phosphorenes. The optical resonances in phosphorene moiré superlattice depend sensitively on twist angle and are completely different from those in the constitute monolayer and bilayer phosphorene even for a twist angle as large as 19°. Our calculations reveal that the Γ-point direct bandgap and the rectangular lattice of phosphorene give rise to the remarkably strong moiré physics in large-twist-angle phosphorene heterostructures. This work highlights fresh opportunities to explore moiré physics in phosphorene and other van der Waals heterostructures with different lattice configurations.

Published
2021

3. Anisotropic Moir\'e Optical Transitions in Twisted Monolayer/bilayer Phosphorene Heterostructures

Author

Zhao, Shilong, Wang, Erqing, Üzer, Ebru Alime, Guo, Shuaifei, Watanabe, Kenji, Taniguchi, Takashi, Nilges, Tom, Zhang, Yuanbo, Liu, Bilu, Zou, Xiaolong, and Wang, Feng

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

Moir\'e superlattices of van der Waals heterostructures provide a powerful new way to engineer the electronic structures of two-dimensional (2D) materials. Many novel quantum phenomena have emerged in different moir\'e heterostructures, such as correlated insulators, superconductors, and Chern insulators in graphene systems and moir\'e excitons in transition metal dichalcogenide (TMDC) systems. Twisted phosphorene offers another attractive system to explore moir\'e physics because phosphorene features an anisotropic rectangular lattice, different from the isotropic hexagonal lattice in graphene and TMDC. Here we report emerging anisotropic moir\'e optical transitions in twisted monolayer/bilayer phosphorene. The optical resonances in phosphorene moir\'e superlattice depend sensitively on the twist angle between the monolayer and bilayer. Surprisingly, even for a twist angle as large as 19{\deg} the moir\'e heterostructure exhibits optical resonances completely different from those in the constituent monolayer and bilayer phosphorene. The new moir\'e optical resonances exhibit strong linear polarization, with the principal axis lying close to but different from the optical axis of bilayer phosphorene. Our ab initio calculations reveal that the {\Gamma}-point direct bandgap and the rectangular lattice of phosphorene, unlike the K-point bandgap of hexagonal lattice in graphene and TMDC, give rise to the remarkably strong moir\'e physics in large-twist-angle phosphorene heterostructures. Our results highlight the exciting opportunities to explore moir\'e physics in phosphorene and other van der Waals heterostructures with different lattice configurations., Comment: 34 pages, 11 figures

Published
2019

4. Red-phosphorus-impregnated carbon nanofibers for sodium-ion batteries and liquefaction of red phosphorus.

Author

Liu, Yihang, Liu, Qingzhou, Jian, Cheng, Cui, Dingzhou, Chen, Mingrui, Li, Zhen, Li, Teng, Nilges, Tom, He, Kai, Jia, Zheng, and Zhou, Chongwu

Abstract

Red phosphorus offers a high theoretical sodium capacity and has been considered as a candidate anode for sodium-ion batteries. Similar to silicon anodes for lithium-ion batteries, the electrochemical performance of red phosphorus is plagued by the large volume variation upon sodiation. Here we perform in situ transmission electron microscopy analysis of the synthesized red-phosphorus-impregnated carbon nanofibers with the corresponding chemo-mechanical simulation, revealing that, the sodiated red phosphorus becomes softened with a liquid-like mechanical behaviour and gains superior malleability and deformability against pulverization. The encapsulation strategy of the synthesized red-phosphorus-impregnated carbon nanofibers has been proven to be an effective method to minimize the side reactions of red phosphorus in sodium-ion batteries, demonstrating stable electrochemical cycling. Our study provides a valid guide towards high-performance red-phosphorus-based anodes for sodium-ion batteries.

Published
2020

5. Room-temperature high detectivity mid-infrared photodetectors based on black arsenic phosphorus

Author

Long, Mingsheng, Gao, Anyuan, Wang, Peng, Xia, Hui, Ott, Claudia, Pan, Chen, Fu, Yajun, Liu, Erfu, Chen, Xiaoshuang, Lu, Wei, Nilges, Tom, Xu, Jianbin, Wang, Xiaomu, Hu, Weida, and Miao, Feng

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The mid-infrared (MIR) spectral range, pertaining to important applications such as molecular 'fingerprint' imaging, remote sensing, free space telecommunication and optical radar, is of particular scientific interest and technological importance. However, state-of-the-art materials for MIR detection are limited by intrinsic noise and inconvenient fabrication processes, resulting in high cost photodetectors requiring cryogenic operation. We report black arsenic-phosphorus-based long wavelength infrared photodetectors with room temperature operation up to 8.2 um, entering the second MIR atmospheric transmission window. Combined with a van der Waals heterojunction, room temperature specific detectivity higher than 4.9*10^9 Jones was obtained in the 3-5 um range. The photodetector works in a zero-bias photovoltaic mode, enabling fast photoresponse and low dark noise. Our van der Waals heterojunction photodector not only exemplify black arsenic-phosphorus as a promising candidate for MIR opto-electronic applications, but also pave the way for a general strategy to suppress 1/f noise in photonic devices., Comment: To appear in Science Advances; 27 pages, 3 figures, 9 supplementary figures; submitted on Feb. 24th, 2017

Published
2017
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6. Application Potential of Pnp‐Switching Semiconductors.

Author

Deng, Philipp, Hoffmann, Matthias, and Nilges, Tom

Subjects
SEMICONDUCTORS, SEMICONDUCTOR diodes, MATERIALS science, DIODES, TEMPERATURE
Abstract

Materials with tunable properties are often in the focus of materials science. Up to this point four different semiconducting materials and substitution variants have been found that are capable of switching between p‐ and n‐type conduction by a simple change in temperature. In this review, we illustrate previous findings of these pnp‐switching materials and current developments in functional implementations. While in the past decade, the scientific focus was primarily on discovering new materials that possess this intriguing switching effect, recently the first devices were successfully constructed and tested. Using the compounds, Ag18Cu3Te11Cl3 and AgCuS, that exhibit the pnp‐switching behaviour at approximately room temperature and 364 K, respectively, two single‐material diodes were developed and characterized. The approach for inducing this effect is denoted and the fundamental principles for realizing these devices are summarized. [ABSTRACT FROM AUTHOR]

Published
2024
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7. Co11Li[(OH)5O][(PO3OH)(PO4)5], a Lithium-Stabilized, Mixed-Valent Cobalt(II,III) Hydroxide Phosphate Framework

Author

Ludwig, Jennifer, Geprägs, Stephan, Nordlund, Dennis, Doeff, Marca M, and Nilges, Tom

Subjects
Inorganic Chemistry, Physical Chemistry (incl. Structural), Other Chemical Sciences, Inorganic & Nuclear Chemistry
Abstract

A new metastable phase, featuring a lithium-stabilized mixed-valence cobalt(II,III) hydroxide phosphate framework, Co11.0(1)Li1.0(2)[(OH)5O][(PO3OH)(PO4)5], corresponding to the simplified composition Co1.84(2)Li0.16(3)(OH)PO4, is prepared by hydrothermal synthesis. Because the pH-dependent formation of other phases such as Co3(OH)2(PO3OH)2 and olivine-type LiCoPO4 competes in the process, a pH value of 5.0 is crucial for obtaining a single-phase material. The crystals with dimensions of 15 μm × 30 μm exhibit a unique elongated triangular pyramid morphology with a lamellar fine structure. Powder X-ray diffraction experiments reveal that the phase is isostructural with the natural phosphate minerals holtedahlite and satterlyite, and crystallizes in the trigonal space group P31m (a = 11.2533(4) Å, c = 4.9940(2) Å, V = 547.70(3) Å3, Z = 1). The three-dimensional network structure is characterized by partially Li-substituted, octahedral [M2O8(OH)] (M = Co, Li) dimer units which form double chains that run along the [001] direction and are connected by [PO4] and [PO3(OH)] tetrahedra. Because no Li-free P31m-type Co2(OH)PO4 phase could be prepared, it can be assumed that the Li ions are crucial for the stabilization of the framework. Co L-edge X-ray absorption spectroscopy demonstrates that the cobalt ions adopt the oxidation states +2 and +3 and hence provides further evidence for the incorporation of Li in the charge-balanced framework. The presence of three independent hydroxyl groups is further confirmed by infrared spectroscopy. Magnetization measurements imply a paramagnetic to antiferromagnetic transition at around T = 25 K as well as a second transition at around 9-12 K with a ferromagnetic component below this temperature. The metastable character of the phase is demonstrated by thermogravimetric analysis and differential scanning calorimetry, which above 558 °C reveal a two-step decomposition to CoO, Co3(PO4)2, and olivine-type LiCoPO4 with release of water and oxygen.

Published
2017

8. Synthesis and characterization of metastable, 20nm-sized Pna21-LiCoPO4 nanospheres

Author

Ludwig, Jennifer, Nordlund, Dennis, Doeff, Marca M, and Nilges, Tom

Subjects
Chemical Sciences, Physical Chemistry, Lithium cobalt phosphate, Nanoparticles, Microwave-assisted solvothermal synthesis, Phase transitions, In situ powder X-ray diffraction, X-ray absorption spectroscopy, Inorganic Chemistry, Macromolecular and Materials Chemistry, Physical Chemistry (incl. Structural), Inorganic & Nuclear Chemistry, Inorganic chemistry, Macromolecular and materials chemistry
Abstract

The majority of research activities on LiCoPO4 are focused on the phospho-olivine (space group Pnma), which is a promising high-voltage cathode material for Li-ion batteries. In contrast, comparably little is known about its metastable Pna21 modification. Herein, we present a comprehensive study on the structure–property relationships of 15–20 nm Pna21-LiCoPO4 nanospheres prepared by a simple microwave-assisted solvothermal process. Unlike previous reports, the results indicate that the compound is non-stoichiometric and shows cation-mixing with Co ions on the Li sites, which provides an explanation for the poor electrochemical performance. Co L2,3-edge X-ray absorption spectroscopic data confirm the local tetrahedral symmetry of Co2+. Comprehensive studies on the thermal stability using thermogravimetric analysis, differential scanning calorimetry, and in situ powder X-ray diffraction show an exothermic phase transition to olivine Pnma-LiCoPO4 at 527 °C. The influence of the atmosphere and the particle size on the thermal stability is also investigated.

Published
2017

9. Particle size-controllable microwave-assisted solvothermal synthesis of the high-voltage cathode material LiCoPO4 using water/ethylene glycol solvent blends

Author

Ludwig, Jennifer, Haering, Dominik, Doeff, Marca M, and Nilges, Tom

Subjects
Lithium cobalt phosphate, Solvothermal synthesis, Microwave synthesis, Particle size control, High-voltage cathode, Lithium-ion batteries, Condensed Matter Physics, Inorganic Chemistry, Macromolecular and Materials Chemistry, Inorganic & Nuclear Chemistry, Materials
Abstract

Particle size-tuned platelets of the high-voltage cathode material LiCoPO4 for Li-ion batteries have been synthesized by a simple one-step microwave-assisted solvothermal process using an array of water/ethylene glycol (EG) solvent mixtures. Particle size control was achieved by altering the concentration of the EG co-solvent in the mixture between 0 and 100 vol%, with amounts of 0–80 vol% EG producing single phase, olivine-type LiCoPO4. The particle sizes of the olivine materials were significantly reduced from about 1.2 μm × 1.2 μm × 500 nm (0 vol% EG) to 200 nm × 100 nm × 50 nm (80 vol% EG) with increasing EG content, while specific surface areas increased from 2 to 13 m2 g-1. The particle size reduction could mainly be attributed to the modified viscosities of the solvent blends. Owing to the soft template effect of EG, the crystals exhibited the smallest dimensions along the [010] direction of the Li diffusion pathways in the olivine crystal structure, resulting in enhanced lithium diffusion properties. The relationship between the synthesis, crystal properties and electrochemical performance was further elucidated, indicating that the electrochemical performances of the as-prepared materials mainly depend on the solvent composition and the respective particle size range. LiCoPO4 products obtained from reaction media with low and high EG contents exhibited good electrochemical performances (initial discharge capacities of 87–124 mAh g−1 at 0.1 C), whereas materials made from medium EG concentrations (40–60 vol% EG) showed the highest capacities and gravimetric energy densities (up to 137 mAh g−1 and 658 Wh kg−1 at 0.1 C), excellent rate capabilities, and cycle life.

Published
2017

10. Direct synthesis and characterization of mixed-valent Li 0.5−δ CoPO 4 , a Li-deficient derivative of the Cmcm polymorph of LiCoPO 4

Author

Ludwig, Jennifer, Alarcón-Suesca, Carlos, Geprägs, Stephan, Nordlund, Dennis, Doeff, Marca M, Orench, Inés Puente, and Nilges, Tom

Subjects
Chemical Sciences
Abstract

While the majority of research activities on LiCoPO4 is focussed on the thermodynamically stable olivine-type Pnma polymorph, the metastable Pna21 and Cmcm modifications have recently attracted considerable attention due to their interesting material properties. In this study, we present the first Li-deficient structural derivative of the Cmcm modification with the nominal composition Li0.5-δCoPO4. As opposed to the substoichiometric olivine (Pnma) phases LixCoPO4 (x = 0; 2/3), which are exclusively accessible by electrochemical or chemical Li extraction techniques, this is also the first time that a direct soft-chemical synthesis route towards a LixCoPO4-type material is accomplished. X-ray and neutron diffraction studies indicate that Cmcm-type Li0.5-δCoPO4 shows vacancies on both the Li and Co sites, whereas X-ray absorption spectra demonstrate that the structure features heterovalent Co ions (+2/+3) to compensate for the Li deficit. Magnetic measurements reveal a long-range antiferromagnetic order below 10.5 K. A thorough investigation of the thermal stability using thermogravimetric analysis, differential scanning calorimetry, and temperature-dependent in situ X-ray powder diffraction demonstrates that Li0.5-δCoPO4 is metastable and exhibits a complex, multi-step thermal decomposition mechanism. In the first step at 394 °C, it decomposes to α-Co2P2O7 (P21/c) and LiCoPO4 (Cmcm) upon O2 release. The LiCoPO4 (Cmcm) intermediate is then irreversibly transformed to olivine-type LiCoPO4 (Pnma) at 686 °C. The material properties of Li0.5-δCoPO4 are further compared to the fully lithiated, isostructural LiCoPO4 (Cmcm) phase, for which an improved structure solution as well as Co L2,3-edge X-ray absorption spectra are reported for the first time.

Published
2017

11. Black Arsenic-Phosphorus: Layered Anisotropic Infrared Semiconductors with Highly Tunable Compositions and Properties

Author

Liu, Bilu, Köpf, Marianne, Abbas, Ahmad A., Wang, Xiaomu, Guo, Qiushi, Jia, Yichen, Xia, Fengnian, Weihrich, Richard, Bachhuber, Frederik, Pielnhofer, Florian, Wang, Han, Dhall, Rohan, Cronin, Stephen B., Ge, Mingyuan, Fang, Xin, Nilges, Tom, and Zhou, Chongwu

Subjects
Condensed Matter - Materials Science
Abstract

Two-dimensional (2D) layered materials with diverse properties have attracted significant interest in the past decade. The layered materials discovered so far have covered a wide, yet discontinuous electromagnetic spectral range from semimetallic graphene, insulating boron nitride, to semiconductors with bandgaps from middle infrared to visible light. Here, we introduce new layered semiconductors, black arsenic-phosphorus (b-AsP), with highly tunable chemical compositions and electronic and optical properties. Transport and infrared absorption studies demonstrate the semiconducting nature of b-AsP with tunable bandgaps, ranging from 0.3 to 0.15 eV. These bandgaps fall into long-wavelength infrared (LWIR) regime and cannot be readily reached by other layered materials. Moreover, polarization-resolved infrared absorption and Raman studies reveal in-plane anisotropic properties of b-AsP. This family of layered b-AsP materials extend the electromagnetic spectra covered by 2D layered materials to the LWIR regime, and may find unique applications for future all 2D layered material based devices., Comment: 31 pages, 13 figures (4 in main text and 9 in Supporting Information), 2 Tables. To appear in Advanced Materials, 2015

Published
2015

12. Heterogeneity of Lithium Distribution in the Graphite Anode of 21700-Type Cylindrical Li-Ion Cells during Degradation

Author

Petz, Dominik, primary, Baran, Volodymyr, additional, Park, Juyeon, additional, Schökel, Alexander, additional, Kriele, Armin, additional, Rebelo Kornmeier, Joana, additional, Paulmann, Carsten, additional, Koch, Max, additional, Nilges, Tom, additional, Müller-Buschbaum, Peter, additional, and Senyshyn, Anatoliy, additional

Published
2024
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13. Facile, ethylene glycol-promoted microwave-assisted solvothermal synthesis of high-performance LiCoPO 4 as a high-voltage cathode material for lithium-ion batteries

Author

Ludwig, Jennifer, Marino, Cyril, Haering, Dominik, Stinner, Christoph, Nordlund, Dennis, Doeff, Marca M, Gasteiger, Hubert A, and Nilges, Tom

Subjects
Chemical Sciences, Physical Chemistry, Affordable and Clean Energy, Chemical sciences
Abstract

Olivine-type LiCoPO4 is considered a promising high-voltage cathode material for next-generation lithium-ion batteries. However, preparing high-performance LiCoPO4 by a simple approach has been challenging. Herein, we present a facile and rapid (30 min) one-step microwave-assisted solvothermal synthesis route using a 1 : 1 (v/v) water/ethylene glycol (EG) binary solvent mixture and a temperature of 250 °C. The technique delivers high-performance LiCoPO4 nanoparticles without additional post-annealing or carbon coating steps. The as-prepared powder consists of single crystalline LiCoPO4 and features a hexagonal platelet-like morphology with dimensions of 700-800 nm × 400-600 nm × 100-220 nm. Selected area electron diffraction (SAED) experiments reveal that the platelets show the smallest dimension along [010], which is the direction of the lithium diffusion pathways in the olivine crystal structure. Furthermore, the results indicate that the EG co-solvent plays an important role in tailoring the particle size, morphology, and crystal orientation of the material. Co L-edge soft X-ray absorption spectroscopy (XAS) of LiCoPO4 are presented for the first time and confirm that the material only consists of Co2+. Benefiting from the unique morphology, which facilitates Li-ion conduction, electrochemical measurements deliver an initial discharge capacity of 137 mA h g-1 at 0.1 C, a remarkably stable capacity retention of 68% after 100 cycles at 0.5 C, and a specific energy density of 658 W h kg-1 based on its capacity and voltage, which is the best performance of LiCoPO4 obtained from microwave-assisted solvothermal synthesis to date.

Published
2016

16. Access and in situ Growth of Phosphorene-Precursor Black Phosphorus

Author

Köpf, Marianne, Eckstein, Nadine, Pfister, Daniela, Grotz, Carolin, Krüger, Ilona, Greiwe, Magnus, Hansen, Thomas, Kohlmann, Holger, and Nilges, Tom

Subjects
Condensed Matter - Materials Science
Abstract

Single crystals of orthorhombic black phosphorus can be grown by a short way transport reaction from red phosphorus and Sn/SnI4 as mineralization additive. Sizes of several millimeters can be realized with high crystal quality and purity, making a large area preparation of single or multilayer phosphorene possible. An in situ neutron diffraction study has been performed addressing the formation of black phosphorus. Black phosphorus is formed directly via gas phase without the occurrence of any other intermediate phase. Crystal growth was initiated after cooling the starting materials down from elevated temperatures at 500 {\deg}C., Comment: 12 Pages, 6 Figures

Published
2014
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17. Pnp-Switchable Coinage-Metal Thermoelectrics for the Development of One-Compound Diodes

Author

Nilges, Tom (Prof. Dr.), Nilges, Tom (Prof. Dr.);Köhler, Klaus (Prof. Dr.), Rabenbauer, Alfred Horst Leopold, Nilges, Tom (Prof. Dr.), Nilges, Tom (Prof. Dr.);Köhler, Klaus (Prof. Dr.), and Rabenbauer, Alfred Horst Leopold

Abstract

Coinage metal chalcogenides offer promising application potential as thermoelectric materials due to their high ion mobility. Despite from these aspects, some of them show the intriguing capability of switching between p- and n-type semiconduction enabled by their highly dynamic structure chemistry. In this work, the first material with a pnp-switch directly at room temperature is assessed and utilized in a thermally controlled, one compound diode. The concept is verified using a second pnp-switching material, and a new series of coinage metal chalcogenides is developed., Münzmetallchalcogenide ermöglichen durch ihre hohe Ionenmobilität großes Potential für thermoelektrische Anwendungen. Einige dieser Verbindungen zeigen aufgrund ihrer hochdynamischen Strukturchemie die Möglichkeit, zwischen p- und n-Typ Halbleitung zu schalten. In dieser Arbeit wird das erste bei Raumtemperatur pnp-schaltende Material untersucht und in einer thermisch gesteuerten Einkomponentendiode angewendet. Dieses Konzept wird an einem zweiten pnp-schaltbaren Material bestätigt und es wird eine neue Serie an Münzmetallchalcogeniden entwickelt.

Published
2023

18. DFT Studies on the SnIP gas phase Mechanism and SnIP Hybrids

Author

Nilges, Tom (Prof. Dr.), Nilges, Tom (Prof. Dr.);Karttunen, Antti (Prof. Dr.), Pielmeier, Markus Rudolf Peter, Nilges, Tom (Prof. Dr.), Nilges, Tom (Prof. Dr.);Karttunen, Antti (Prof. Dr.), and Pielmeier, Markus Rudolf Peter

Abstract

The formation mechanism of SnIP and Pblack in the gas phase is explained by DFT studies on the GGA level. Furthermore, the stabilization of single SnIP double helices in the bulk material and with different matrices is elucidated., Die Bildungsmechanismen von SnIP und Pschwarz in der Gasphase wird erläutert mit Hilfe von DFT Studien auf dem GGA-Level. Weiterhin wird die Stabilierung einzelner SnIP-Doppelhelices im Grundmaterial und in verschiedenen Matrizen beleuchtet.

Published
2023

21. Drop That Activation Energy: Tetragonal to Cubic Transformations in Na3PS4−xSex for Solid State Sodium Ion Battery Materials.

Author

Chaudhary, Madhusudan, Pominov, Arkadii, Mumbaraddi, Dundappa, Allen, Bryce, Meyer, Jan, Kirchberger, Anna Maria, Bernard, Guy M., Nilges, Tom, Mar, Arthur, and Michaelis, Vladimir K.

Subjects
IONIC conductivity, SODIUM ions, ACTIVATION energy, SOLID electrolytes, NUCLEAR magnetic resonance, BINOMIAL distribution, CHALCOGENS
Abstract

Sodium‐containing chalcogenide materials are emerging as a class of solid electrolytes for application in inexpensive all‐solid‐state sodium‐ion batteries due to their high ionic conductivity, abundance, and degree of synthetic and structural variability. Members of the solid solution Na3PS4−xSex, which are promising solid electrolytes for sodium‐ion batteries, are prepared by reaction at high temperature. With increasing substitution of S by Se, the structure transforms from tetragonal (space group P4¯$\bar{4}$21c for x = 0, 1) to cubic (space group I4¯$\bar{4}$3m for x = 2, 3, 4). Within the solid solution, the S and Se atoms are completely disordered in the environments around the P atoms, in accordance with a binomial distribution, as inferred by the 31P nuclear magnetic resonance (NMR) spectra. In 23Na NMR experiments conducted at different magnetic fields and temperatures, quadrupolar lineshapes are observed that are influenced by sodium ion dynamics; the activation energies decrease from 0.21 to 0.15 eV on progressing from the S‐ to the Se‐rich members. A dynamic model is proposed to account for the changes in the 23Na quadrupolar lineshapes by switching the orientations of the electric field gradient and chemical shift anisotropy tensors when Na+ ions hop to the four nearest Na sites. [ABSTRACT FROM AUTHOR]

Published
2024
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22. Rare earth element stripping from kaolin sands via mild acid treatment.

Author

Koch, Max, Paper, Michael, Brück, Thomas B., and Nilges, Tom

Subjects
KAOLIN, CLAY minerals, SAND, SULFURIC acid, HYDROCHLORIC acid, KAOLINITE
Abstract

Due to their chemical and physical properties, rare earth elements (REEs) are essential in modern applications such as energy conversion or IT technology. The increasing demand for these elements leads to strong incentives for REE recovery and induces the exploration of new, alternative sources for REEs. Accessing REEs from clay minerals, in our case kaolinite, by an elution process is a promising method. The present study investigates the potential application of REE recovery through elution with different mineral acids (HNO3, H2SO4, and HCl) in a microwave process. The material used in this study—residues from an industrial kaolin production process—contained 2.47 g/kg REEs which is a significant amount for REE recovery. The ability of various mineral acids to solubilize metals was studied to assess the REE content of this residual resource. Around 1.87 g/kg of REEs was eluted from industrial kaolinite residues in hydrochloric acid, 1.71 g/kg in sulfuric acid, and 1.13 g/kg in nitric acid. [ABSTRACT FROM AUTHOR]

Published
2024
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23. Structural and 121Sb M\'ossbauer Spectroscopic Investigations of the Antimonide Oxides REMnSbO (RE = La, Ce, Pr, Nd, Sm, Gd, Tb) and REZnSbO (RE = La, Ce, Pr)

Author

Schellenberg, Inga, Nilges, Tom, and Pöttgen, Rainer

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science
Abstract

The quaternary antimonide oxides REMnSbO (RE = La, Ce, Pr, Nd, Sm, Gd, Tb) and REZnSbO (RE = La, Ce, Pr) were synthesized from the RESb monoantimonides and MnO, respectively ZnO. We report on single crystal X-ray data and a detailed 121Sb M\"ossbauer spectroscopic investigation., Comment: 18 pages

Published
2008

31. Electrospun polymeric electrolytes and their use in All-Solid state batteries

Author

Nilges, Tom (Prof. Dr.), Nilges, Tom (Prof. Dr.);Pettinger, Karl-Heinz (Prof. Dr.), Springer, Bernhard Christian, Nilges, Tom (Prof. Dr.), Nilges, Tom (Prof. Dr.);Pettinger, Karl-Heinz (Prof. Dr.), and Springer, Bernhard Christian

Abstract

This thesis focuses on the use of electrospinning for manufacturing polymeric electrolytes for secondary solid-state lithium metal full cells. The characteristics of polyethylene oxide-based electrolytes, casted and spun, are investigated within lithium metal full cells using electrochemical and physical analysis methods. Development work is carried out to achieve an optimized Polyfluoric sulfonic acid-based electrolyte in the second part of this thesis., Diese Arbeit fokussiert sich auf die Verwendung des Elektrospinnings zur Herstellung von polymerischen Feststoffelektrolyten für sekundäre Lithiummetall-Vollzellen. Die Eigenschaften Polyethyleneoxid-basierter Elektrolyte, gegossen und gesponnen, werden in Lithiummetall-Vollzellen mithilfe elektrochemischer und physikalischer Analytik untersucht. Es wird im zweiten Teil dieser Arbeit Entwicklungsarbeit geleistet, um einen optimierten Elektrolyten auf Polyfluorsulfonsäure-Basis zu entwickeln.

Published
2022

32. Komplexe Telluride mit schaltbaren Eigenschaften

Author

Nilges, Tom (Prof. Dr.), Nilges, Tom (Prof. Dr.);Köhler, Klaus (Prof. Dr.);Doert, Thomas (Prof. Dr.), Vogel, Anna, Nilges, Tom (Prof. Dr.), Nilges, Tom (Prof. Dr.);Köhler, Klaus (Prof. Dr.);Doert, Thomas (Prof. Dr.), and Vogel, Anna

Abstract

Die Substanzklasse der Münzmetall(poly)chalkogenidhalogenide weist mit hoher Ionenmobilität und Dynamik in der Chalkogenteilstruktur interessante Eigenschaften für thermoelektrische oder elektronische Anwendungen auf. Hier werden drei neue polymorphe Verbindungen hinzugefügt und hinsichtlich ihrer thermoelektrischen Leistungsfähigkeit untersucht. Neben der ersten Verbindung, die pnp-Schaltung bei Raumtemperatur zeigt, wird die erste schaltbare ortsunabhängige Einkomponenten-Diode beschrieben., The substance class of coinage metal (poly)chalcogenide halides shows, with high ion mobility and dynamics in the chalcogen substructure, interesting properties for thermoelectric or electronic applications. Here, three new polymorphic compounds are added and examined for their thermoelectric performance. In addition to the first compound that shows pnp-switching at room temperature, the first switchable location-independent one-component diode is described.

Published
2022

33. Eindimensionale Halbleiter und Verbindungen mit kettenförmiger Polyphosphidteilstruktur im System der Tetrel-Phosphor-Halogenide APX mit A = Ge, Sn, Pb und X = Br, I

Author

Nilges, Tom (Prof. Dr.), Nilges, Tom (Prof. Dr.);Brück, Thomas (Prof. Dr.), Reiter, Felix Georg, Nilges, Tom (Prof. Dr.), Nilges, Tom (Prof. Dr.);Brück, Thomas (Prof. Dr.), and Reiter, Felix Georg

Abstract

In dieser Arbeit wurden Polyphosphide mit kettenförmiger Teilstruktur untersucht, um neuartige eindimensionale Halbleiter zu entdecken. Diese weisen aufgrund ihrer Struktur spezielle mechanische und elektrische Eigenschaften auf. Dabei konnte die Verbindung SnBrP erstmals synthetisiert und charakterisiert werden. Untersuchungen zeigten, dass es sich dabei um eine Verbindung mit doppelhelikaler Struktur handelt und es außerdem ein Halbleiter mit einer Bandlücke von 1,93 eV ist., In this work polyphosphides with a chain-like substructure were investigated to discover new one-dimensional semiconductors. Due to their structure, these compounds possess special mechanical and electrical properties. The compound SnBrP could be synthesized and characterised for the first time. Investigations showed, that SnBrP has a double-helical structure and is a semiconductor with a bandgap of 1,93 eV.

Published
2022

34. Electrospinning of Lithium and Magnesium Ion Conductors

Author

Nilges, Tom (Prof. Dr.), Nilges, Tom (Prof. Dr.);Gasteiger, Hubert A. (Prof. Dr.);Weihrich, Richard (Prof. Dr.), Walke, Patrick, Nilges, Tom (Prof. Dr.), Nilges, Tom (Prof. Dr.);Gasteiger, Hubert A. (Prof. Dr.);Weihrich, Richard (Prof. Dr.), and Walke, Patrick

Abstract

Electrospinning, a method suitable for the fabrication of fibrous polymer membranes, is used to prepare solid polymer electrolytes. These poly(ethylene oxide)-based membranes , show an increased ionic conductivity. Beside varying the conducting salt, based on lithium or magnesium, the use of organic and inorganic additives and their influence on the ionic conductivity are tested., Elektrospinning, eine Methode zur Präparation von faserbasierten Polymermembranen, wird verwendet um Festkörperpolymerelektrolyte herzustellen. Diese, auf Polyethyleneoxid basierenden, Membranen zeigen eine erhöhte ionische Leitfähigkeit. Neben der Variation der Lithium und Magnesium enthaltenden Leitsalze werden organische und anorganische Additive und ihr Einfluss auf die Leitfähigkeit getestet.

Published
2022

36. Tunable polymer architectures for aliphatic polycarbonates via co- and terpolymerization of epoxides and CO2

Author

Rieger, Bernhard (Prof. Dr. Dr. h.c.), Rieger, Bernhard (Prof. Dr. Dr. h.c.);Nilges, Tom (Prof. Dr.), Denk, Alina Constanze, Rieger, Bernhard (Prof. Dr. Dr. h.c.), Rieger, Bernhard (Prof. Dr. Dr. h.c.);Nilges, Tom (Prof. Dr.), and Denk, Alina Constanze

Abstract

In this thesis the versatility of polymer structures was used to design aliphatic polycarbonates of enhanced mechanical and thermal characteristics. The application of poly(dimethylsiloxane) as initiator or a dosing system for epoxides/CO2 terpolymerization resulted in advanced polymer architectures with tunable compositions and properties., In dieser Arbeit wurde die Vielseitigkeit von Polymerstrukturen genutzt, um aliphatische Polycarbonate mit verbesserten mechanischen und thermischen Eigenschaften zu entwickeln. Die Anwendung von Poly(dimethylsiloxan) als Initiator oder eines Dosiersystems für die Epoxid/CO2-Terpolymerisation führte zu fortschrittlichen Polymerarchitekturen mit steuerbaren Zusammensetzungen und Eigenschaften.

Published
2023

37. Active-site Imprinted M-N-C Electrocatalysts: Tailor-made Synthesis and Tuned Activity

Author

Gasteiger, Hubert A. (Prof. Dr.), Gasteiger, Hubert A. (Prof. Dr.);Nilges, Tom (Prof. Dr.);Kramm, Ulrike (Prof. Dr.), Menga, Davide, Gasteiger, Hubert A. (Prof. Dr.), Gasteiger, Hubert A. (Prof. Dr.);Nilges, Tom (Prof. Dr.);Kramm, Ulrike (Prof. Dr.), and Menga, Davide

Abstract

MNC are currently the best alternative set to replace critical materials in several electrochemical reactions. The topic of this thesis is the synthesis and development of MNC, with a particular focus on FeNC. Firstly, a new synthetic method is developed, yielding materials with defined morphology, exclusively containing tetrapyrrolic FeN4 sites. Secondly, their intrinsic activity is investigated. Finally, their stability is investigated as powder storage and during operation in a PEMFC., MNC-Materialien sind derzeit die beste Alternative, um kritische Rohmaterialien fuer diverse Elektrokatalysatoren zu ersetzen. Thema dieser Arbeit ist die Synthese und Entwicklung von MNC mit besonderem Fokus auf FeNC. Erstens wird eine neue Synthesemethode entwickelt, die ausschließlich tetrapyrrolische FeN4-Zentren produziert. Zweitens wird ihre intrinsische Aktivität untersucht. Schließlich wird ihre Stabilität in Pulverform und während des Betriebs in einer PEMFC untersucht.

Published
2023

38. Structure-Property Relations of Functional Materials Featuring a Perovskite Structure Motif

Author

Kieslich, Gregor (Priv.-Doz. Dr.), Kieslich, Gregor (Priv.-Doz. Dr.);Phillips, Anthony (Priv.-Doz. Dr.);Nilges, Tom (Prof. Dr.), Burger, Stefan, Kieslich, Gregor (Priv.-Doz. Dr.), Kieslich, Gregor (Priv.-Doz. Dr.);Phillips, Anthony (Priv.-Doz. Dr.);Nilges, Tom (Prof. Dr.), and Burger, Stefan

Abstract

Perovskite-type coordination networks represent an emerging material platform to systematically study the relationship of the structure and the property of the material. The thesis presents novel molecular perovskites and investigates their response to external stimuli like pressure and temperature. A conceptual link is established between the chemical manipulation capabilities of the structural motif and the introduction of chemical and geometric degrees of freedom., Koordinationsnetzwerke des Perowskit-Typs stellen eine aufstrebende Materialplattform dar, um die Beziehung zwischen Struktur und Eigenschaften des Materials systematisch zu untersuchen. In dieser Arbeit werden neuartige molekulare Perowskite vorgestellt und ihr Verhalten gegenüber Druck und Temperatur untersucht. Es wird eine Beziehung zwischen den chemischen Manipulationsmöglichkeiten des Strukturmotivs und den daraus resultierenden chemischen und geometrischen Freiheitsgraden hergestellt.

Published
2023

39. Metal Biosorption by Cyanobacteria Focusing on the Adsorption of Rare Earth Elements

Author

Brück, Thomas (Prof. Dr.), Brück, Thomas (Prof. Dr.);Nilges, Tom (Prof. Dr.);Lakatos, Michael (Priv.-Doz. Dr.), Paper, Michael Josef Dieter, Brück, Thomas (Prof. Dr.), Brück, Thomas (Prof. Dr.);Nilges, Tom (Prof. Dr.);Lakatos, Michael (Priv.-Doz. Dr.), and Paper, Michael Josef Dieter

Abstract

This work provides further insights into the metal adsorption by cyanobacterial biomass thereby offering a better understanding of underlying mechanisms. Moreover, it was demonstrated that cyanobacterial biomass has great potential for future applications in biosorption-based metal recovery from diluted aqueous solutions. Critical parameters for the uptake of Rare Earth Elements by the cyanobacterial biomass were optimized and the dominant chemical mechanisms for metal binding were characterized., Diese Arbeit gibt vertiefte Einblicke in die Metalladsorption durch Cyanobakterien-Biomasse und erweitert dadurch das Verständnis der zugrundeliegenden Mechanismen. Darüber hinaus wurde gezeigt, dass Biomasse von Cyanobakterien großes Potenzial für zukünftige Anwendungen in der biosorptionsbasierten Metallrückgewinnung aus verdünnten wässrigen Lösungen aufweist. Kritische Parameter für die Aufnahme von Seltenen Erden durch die Cyanobakterien-Biomasse wurden optimiert und die dominanten chemischen Mechanismen für die Metallbindung wurden charakterisiert.

Published
2023

40. Synthesis and Evaluation of Performance Enhanced Re(I)/Ru(II)-based Catalysts for the Photocatalytic Reduction of CO2

Author

Rieger, Bernhard (Prof. Dr. Dr. h.c.), Rieger, Bernhard (Prof. Dr. Dr. h.c.);Nilges, Tom (Prof. Dr.), Thomas, Christopher, Rieger, Bernhard (Prof. Dr. Dr. h.c.), Rieger, Bernhard (Prof. Dr. Dr. h.c.);Nilges, Tom (Prof. Dr.), and Thomas, Christopher

Abstract

In this work, novel rhenium(I)-hybrids, rhenium(I)/ruthenium(II)-based polymers and rhenium(I)/ruthenium(II)-dendrimers were conceptualised, synthesised and investigated for their ability to reduce carbon dioxide. The designed photocatalysts reach long lifetimes and demonstrate effective conversion to the product carbon monoxide. In this context, important insights into synergetic effects between the materials and intermolecular interactions of the metal centres could be obtained., In dieser Arbeit wurden neuartige Rhenium(I)-Hybridsysteme, Rhenium(I)/Ruthenium(II)-basierte Polymere und Rhenium(I)/Ruthenium(II)-Dendrimere konzipiert, synthetisiert und auf ihre Fähigkeit zur Reduktion von Kohlenstoffdioxid untersucht. Die entwickelten Photokatalysatoren erreichen lange Lebenszeiten und zeigen effektive Umwandlung zum Produkt Kohlenstoffmonooxid. Zusätzlich konnten in diesem Rahmen wichtige Erkenntnisse zu synergetischen Effekten zwischen den Materialien und intermolekulare Wechselwirkungen der Metallzentren gewonnen werden.

Published
2023

41. Ultrahigh Molecular Weight Polypropylene

Author

Rieger, Bernhard (Prof. Dr. Dr. h.c.), Rieger, Bernhard (Prof. Dr. Dr. h.c.);Nilges, Tom (Prof. Dr.), Stieglitz, Lucas, Rieger, Bernhard (Prof. Dr. Dr. h.c.), Rieger, Bernhard (Prof. Dr. Dr. h.c.);Nilges, Tom (Prof. Dr.), and Stieglitz, Lucas

Abstract

Ultrahigh molecular weight (UHMW) polymers are becoming of increasingly interest, as their increased molecular weight is associated with enhanced properties, such as improved mechanical behavior of the polymer. Unlike polyethylene (PE), UHMW polypropylene (PP) is not yet established as a high-performance polymer. In this thesis, the synthesis of designable isotactic and syndiotactic UHMW-PP and subsequent processing were achieved, demonstrating the potential of UHMW-PP as a potential high-performance polymer., Polymere mit ultrahohem Molekulargewicht (UHMW) gewinnen zunehmend an Interesse, da ihr höheres Molekulargewicht mit verbesserten Eigenschaften, z.B. mit einem verbesserten mechanischen Verhalten des Polymers, verbunden ist. Im Gegensatz zu Polyethylen (PE) ist UHMW-Polypropylen (PP) noch nicht als Hochleistungspolymer etabliert. In dieser Arbeit wurde die Synthese von designfähigem isotaktischem und syndiotaktischem UHMW-PP und die anschließende Verarbeitung erzielt und das Potenzial von UHMW-PP als potentielles Hochleistungspolymer nachgewiesen.

Published
2023

42. Interactions of Small Functional Molecules with Metal-Organic Frameworks

Author

Fischer, Roland A. (Prof. Dr. Dr. h.c.), Fischer, Roland A. (Prof. Dr. Dr. h.c.);Nilges, Tom (Prof. Dr.), Ukaj, Dardan, Fischer, Roland A. (Prof. Dr. Dr. h.c.), Fischer, Roland A. (Prof. Dr. Dr. h.c.);Nilges, Tom (Prof. Dr.), and Ukaj, Dardan

Abstract

Metal-organic frameworks can incorporate small functional molecules into their porous structures. This yields host-guest complexes with new material properties that deviate from their parent compounds. The presented work deals with the investigation of these interactions using redox-active metal-organic frameworks that form charge-transfer host-guest complexes with electron-accepting polynitriles. Their influence on electrical conductivity and thermal expansion properties is discussed., Metallorganische Gerüstverbindungen können kleine funktionelle Moleküle in ihre porösen Strukturen aufnehmen. Dadurch entstehen Wirt-Gast-Komplexe mit neuen Eigenschaften, die von ihren Ausgangsverbindungen abweichen. In dieser Arbeit werden die Wechselwirkungen anhand von redoxaktiven metallorganischen Gerüstverbindungen untersucht, die Charge-Transfer-Komplexe mit elektronenakzeptierenden Polynitrilen bilden. Deren Einfluss auf die elektrische Leitfähigkeit und die thermischen Ausdehnungseigenschaften wird diskutiert.

Published
2023

48. A Switchable One‐Compound Diode (Adv. Mater. 2/2023)

Author

Vogel, Anna, primary, Rabenbauer, Alfred, additional, Deng, Philipp, additional, Steib, Ruben, additional, Böger, Thorben, additional, Zeier, Wolfgang G., additional, Siegel, Renée, additional, Senker, Jürgen, additional, Daisenberger, Dominik, additional, Nisi, Katharina, additional, Holleitner, Alexander W., additional, Venturini, Janio, additional, and Nilges, Tom, additional

Published
2023
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49. A Switchable One‐Compound Diode

Author

Vogel, Anna, primary, Rabenbauer, Alfred, additional, Deng, Philipp, additional, Steib, Ruben, additional, Böger, Thorben, additional, Zeier, Wolfgang G., additional, Siegel, Renée, additional, Senker, Jürgen, additional, Daisenberger, Dominik, additional, Nisi, Katharina, additional, Holleitner, Alexander W., additional, Venturini, Janio, additional, and Nilges, Tom, additional

Published
2022
Full Text
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