Thomas Leichtweiss

Overview

Explore the profile of Thomas Leichtweiss including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 15

Citations 115

Followers 0

Related Specialties

Biomedical Engineering

Biotechnology

Chemistry

Top 10 Co-Authors

Jurgen Janek

Wolfgang G Zeier

Dominik A Weber

Wenbo Zhang

Christian Reitz

Torsten Brezesinski

Marcus Rohnke

Sean P Culver

Di Wang

Boris Strehlow

Published In

ACS Appl Mater Interfaces

Mater Sci Eng C Mater Biol Appl

Chem Commun (Camb)

Nat Chem

Acta Biomater

Affiliations

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Recent Articles

Critical Role of the Crystallite Size in Nanostructured LiTiO Anodes for Lithium-Ion Batteries

Yue J, Badaczewski F, Voepel P, Leichtweiss T, Mollenhauer D, Zeier W, et al.

ACS Appl Mater Interfaces . 2018 Jun; 10(26):22580-22590. PMID: 29878745

Lithium titanate LiTiO (LTO) is regarded as a promising alternative to carbon-based anodes in lithium-ion batteries. Despite its stable structural framework, LTO exhibits disadvantages, such as the sluggish lithium-ion diffusion...

Degradation Mechanisms at the LiGePS/LiCoO Cathode Interface in an All-Solid-State Lithium-Ion Battery

Zhang W, Richter F, Culver S, Leichtweiss T, Lozano J, Dietrich C, et al.

ACS Appl Mater Interfaces . 2018 Jun; 10(26):22226-22236. PMID: 29877698

All-solid-state batteries (ASSBs) show great potential for providing high power and energy densities with enhanced battery safety. While new solid electrolytes (SEs) have been developed with high enough ionic conductivities,...

Li Ion Conductors with Adamantane-Type Nitridophosphate Anions β-Li P N and Li P N X with X=Cl, Br

Bertschler E, Dietrich C, Leichtweiss T, Janek J, Schnick W

Chemistry . 2017 Oct; 24(1):196-205. PMID: 29027753

β-Li P N and Li P N X with X=Cl, Br have been synthesized from mixtures of P N , Li N, LiX, LiPN , and Li PN at temperatures...

The Detrimental Effects of Carbon Additives in LiGePS-Based Solid-State Batteries

Zhang W, Leichtweiss T, Culver S, Koerver R, Das D, Weber D, et al.

ACS Appl Mater Interfaces . 2017 Sep; 9(41):35888-35896. PMID: 28937736

All-solid-state batteries (SSBs) have recently attracted much attention due to their potential application in electric vehicles. One key issue that is central to improve the function of SSBs is to...

Interfacial Processes and Influence of Composite Cathode Microstructure Controlling the Performance of All-Solid-State Lithium Batteries

Zhang W, Weber D, Weigand H, Arlt T, Manke I, Schroder D, et al.

ACS Appl Mater Interfaces . 2017 May; 9(21):17835-17845. PMID: 28481084

All-solid-state lithium-ion batteries have the potential to become an important class of next-generation electrochemical energy storage devices. However, for achieving competitive performance, a better understanding of the interfacial processes at...

Applying Capacitive Energy Storage for In Situ Manipulation of Magnetization in Ordered Mesoporous Perovskite-Type LSMO Thin Films

Reitz C, Wang D, Stoeckel D, Beck A, Leichtweiss T, Hahn H, et al.

ACS Appl Mater Interfaces . 2017 Apr; 9(27):22799-22807. PMID: 28367631

Mesostructured nonsilicate materials, particularly mixed-metal oxides, are receiving much attention in recent years because of their potential for numerous applications. Via the polymer-templating method, perovskite-type lanthanum strontium manganese oxide (LaSrMnO,...

Interfacial Reactivity Benchmarking of the Sodium Ion Conductors NaPS and Sodium β-Alumina for Protected Sodium Metal Anodes and Sodium All-Solid-State Batteries

Wenzel S, Leichtweiss T, Weber D, Sann J, Zeier W, Janek J

ACS Appl Mater Interfaces . 2016 Sep; 8(41):28216-28224. PMID: 27677413

The interfacial stability of solid electrolytes at the electrodes is crucial for an application of all-solid-state batteries and protected electrodes. For instance, undesired reactions between sodium metal electrodes and the...

Dynamic formation of a solid-liquid electrolyte interphase and its consequences for hybrid-battery concepts

Busche M, Drossel T, Leichtweiss T, Weber D, Falk M, Schneider M, et al.

Nat Chem . 2016 Apr; 8(5):426-34. PMID: 27102676

The discharging and charging of batteries require ion transfer across phase boundaries. In conventional lithium-ion batteries, Li(+) ions have to cross the liquid electrolyte and only need to pass the...

Temperature-induced transformation of electrochemically formed hydrous RuO2 layers over Ru(0001) model electrodes

Krause P, Camuka H, Leichtweiss T, Over H

Nanoscale . 2016 Mar; 8(29):13944-53. PMID: 27009374

Hydrous RuO2 reveals excellent performance both as a supercapacitor and as a heterogeneous oxidation catalyst. Molecular understanding of these processes needs, however, a model system with preferably low structural and...

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Hierarchical Carbon with High Nitrogen Doping Level: A Versatile Anode and Cathode Host Material for Long-Life Lithium-Ion and Lithium-Sulfur Batteries

Reitz C, Breitung B, Schneider A, Wang D, von der Lehr M, Leichtweiss T, et al.

ACS Appl Mater Interfaces . 2016 Feb; 8(16):10274-82. PMID: 26867115

Nitrogen-rich carbon with both a turbostratic microstructure and meso/macroporosity was prepared by hard templating through pyrolysis of a tricyanomethanide-based ionic liquid in the voids of a silica monolith template. This...