Solid State Batteries

About

The "Solid-State Batteries“ research group develops ceramic-based cells and components for future electrochemical energy storage. Know-how ranges from new materials over conventional ceramic processing methods all the way to full battery cell manufacturing.

The Lithium-ion battery’s success story continues with the opening of new fields of application in electro-mobility and stationary energy storage. In established fields of application, requirements with respect to safety, energy and power density also increase steadily.

Research needs to accommodate this change with further development of existing technologies, but also the targeted investigation of new, disruptive concepts. In both cases, easy transferability of the results into industry needs to be a major goal. These three propositions are the basis of the work of the team “Solid-State Batteries” at IMD-2.

One option to enhance the safety as well as the energy and power density of future batteries is the shift from liquid or polymer electrolytes to ceramic ones. Research goal in this field is the development of high capacity cells, only containing solid state materials and working at room temperature. These cells are intrinsically safe since leakage and temperature stability are dealt with on a materials level, one promising ceramic electrolyte candidate being Li7La3Zr2O12 (LLZ). With layer thicknesses comparable to conventional Li-ion batteries, the focus of our research lies on synthesis of basic powders in large amounts, parts and components manufacturing and full cell assembly. Basis for this work is our deep know-how and large portfolio of ceramic synthesis and processing methods, allowing us to investigate a large array of material combinations and cell types.

We are able to widely adapt our cells to the specific needs of our partners in research and industry. Please feel free to contact us for more detailed information.

Research Topics

Li and Na batteries - ceramic ion conductors for next-generation batteries

  • Solid-state batteries (electrolyte, mixed-conducting cathode and anodes, half and full cell construction)
  • Functional components for Li-air and Li-S (anode protection layers, Li-selective separators)

Methods:

  • Production of ceramic powders in large quantities (solid state reaction, spray pyrolysis,...) and their processing (foil casting, screen printing, dip coating,...)
  • Accompanying analysis using physical X-ray, electron, ion and neutron-based methods (XRD, SEM, TEM, SIMS, RBS, NRA, nDiffr., QENS,...) as well as electrochemical methods (EIS, CV, charge-discharge curves,...)

Contact

Dr. Martin Finsterbusch

IMD-2

Building 01.3 / Room R 241

+49 2461/61-2877

E-Mail

Members

Yannic ColletteNoneBuilding 01.3 / Room 113+49 2461/61-5058
Melanie RosenNoneBuilding 01.3z / Room 5012+49 2461/61-85266
Philipp HeckerNoneBuilding 01.3 / Room 115b+49 2461/61-85269
Pin-Ching HuangNoneBuilding 09.6 / Room TR. 1+49 2461/61-8039
Vivien KiyekNoneBuilding 01.3 / Room 218+49 2461/61-96736
Tobias LammertNoneBuilding 01.3 / Room 141+49 2461/61-3413
Artur LangNoneBuilding 01.3 / Room 154+49 2461/61-4596
Xiaochen LiuNoneBuilding 01.3 / Room Cosy+49 2461/61-8039
Dr. Sören MöllerNoneBuilding 09.1 / Room 029a+49 2461/61-2963
Dr. Khoirul Faiq MuzakkaNoneBuilding 09.1 / Room 029a+49 2461/61-2963
Dr. Andreas PaulusNoneBuilding 09.6 / Room Teilraum 3+49 2461/61-3817
Dr. Christoph RoitzheimNoneBuilding 01.3z / Room 4014+49 2461/61-8058
Dr. Christian SchwabNoneBuilding 01.3z / Room 5005+49 2461/61-8985
Kevin WaltherNoneBuilding 01.3 / Room 154+49 2461/61-4596

Last Modified: 13.01.2025