Technical University of Munich
Chair of Electrochemical Materials (Prof. Rupp)
Lichtenbergstr. 4
85748 Garching b. München
Solid State Electrochemical Materials and Devices
Rupp team`s current research interests are on processing of ceramic and glass materials, solid state material design and tuning of structure-property relations for novel energy and information devices and operation schemes. This ranges from alternative energy storage via solid state batteries, solar-to-synthetic fuel conversion or novel types of neuromorphic memories and computing logic entities for data storage and transfer beyond transistors and new sensing functions to track chemicals in the environment. Here, her team goes the whole way from material design, novel processing techniques to make ceramics, cermets or glassy-type ceramic structures up to novel device prototypes, their operation and characteristics (see research overview).
Journal of Materials Chemistry A
Abstract: A key challenge for incorporation of oxide-based solid electrolytes into batteries remains the brittle nature of the ceramic, which makes scalable, low-cost fabrication of thin (<20 µm) separators…
Advanced Energy Materials
Abstract: Global energy demand is projected to grow 30% within the next three decades, driven primarily by population growth and urbanization, leading to greater material needs in energy, and necessitates a new…
Angewandte Chemie - International Edition
Abstract: Covalent organic frameworks (COFs) have emerged as promising electrode materials for secondary-ion batteries, where redox-active building blocks and linkages enable tunable redox properties, while…
Journal of Materials Chemistry A
Abstract: Developing scalable processing routes for oxide-based solid-state batteries remains a central challenge, particularly in maintaining lithium stoichiometry and interfacial stability during…
Chemical Society Reviews
Abstract: The current most mature, competitive, and dominant battery technology for electric vehicles (EVs) is the Li-ion battery (LIB). As future EVs will rely on battery technology, further innovation is…
Advanced Energy Materials
Abstract: Covalent organic frameworks (COFs) have emerged as promising active materials for secondary-ion battery electrodes, owing to their robust porous structure and the flexibility in selecting redox-active…
Advanced Energy Materials
Abstract: The development of all-solid-state lithium metal batteries employing oxide electrolytes is limited due to chemical incompatibilities and elevated interfacial resistance. In particular,…
Nature Nanotechnology
Abstract: The rapid rise of functional ceramics across various sectors, including electronics, energy storage and automotive, is projected to drive annual growth rates of up to 35% until 2030. With this…
Optics and Laser Technology
Abstract: Given the rising demand for energy storage systems characterized by high energy density and safety, next-generation batteries are gaining increasing significance in research. In particular, the…
ACS Applied Materials and Interfaces
Abstract: Inorganic synthesis planning currently relies primarily on heuristic approaches or machine learning models trained on limited data sets, which constrains its generality. We demonstrate that language…
| Title | Dates | Duration | Type | Lecturer (assistant) |
|---|---|---|---|---|
| Actual Results of Solid State Batteries |
|
2 | SE | |
| Exercise Course to Materials Sciences (MS&E) |
|
1 | UE | |
| Materials Sciences (MS&E) |
|
2 | VO | |
| Solid State Electrochemistry & Ceramics |
|
1 | SE |
| Title | Dates | Duration | Type | Lecturer (assistant) |
|---|---|---|---|---|
| Actual Results of Solid State Batteries |
|
2 | SE | |
| Advanced Research Internship (ARI) (SE0208) |
|
13 | FO | |
| Battery Venture Course – Powering Battery Innovation from Lab to Market |
|
3 | SE | |
| Solid State Electrochemistry & Ceramics |
|
1 | SE |