TY  - CONF
AU  - Uhlenbruck, Sven
AU  - Gehrke, Hans-Gregor
AU  - Lobe, Sandra
AU  - Tsai, Chih-Long
AU  - Dellen, Christian
AU  - Bünting, Aiko
AU  - Bitzer, Martin
AU  - Dornseiffer, Jürgen
AU  - Van Gestel, Tim
AU  - Guillon, Olivier
TI  - Manufacturing and Performance of solid-state thin-film batteries
M1  - FZJ-2015-07189
PY  - 2015
AB  - The combination of solid ceramic-like electrolytes with inorganic electrodes, thus creating an all solid-state battery, requires a sophisticated co-processing, taking into account the different chemical and thermal stability of the applied materials. Thin-film batteries allow – on the one hand – a detailed analysis of the compatibility of active storage material and the electrolyte because of dense layer morphology (ideal case) and well-defined planar interfaces. On the other hand, thin-film batteries also have the potential for energy storage solutions in applications with short-term or low power consumption. Optionally, a stacking of active thin layers can increase the energy content.  In general, the deposition and crystallization of a functional layer for solid-state battery cells requires a heat incidence that can lead to an undesired and detrimental diffusion of constituents into the substrate or into adjacent components, to mechanical stresses and resulting cracks due to different coefficients of thermal expansion, or even to a decomposition of parts of the battery. The purpose of this work is a comparison of different materials, Lithium-oxynitride (LiPON) based and Lithium-Lanthanum-Zirconium-oxide (LLZ) based electrolyte materials, and different thin-film deposition processes (for example physical vapor deposition, spin-coating, dip-coating, ink-jet-printing) that are applied to thin-film solid-state battery cells, and their impact on the microstructure, the inter diffusion and, as a result, on the performance of the cells. Analysis was done, among others, by high-resolution scanning electron microscopy, secondary ion mass spectrometry, nuclear reaction analysis, Rutherford backscattering, electrochemical impedance spectroscopy, galvanostatic charge-discharge measurements and cyclic voltammetry.As an outlook, the economic feasibility of thin-film deposition technologies like physical vapor deposition is discussed.
T2  - 66th Annual Meeting of the International Society of Electrochemistry
CY  - 5 Oct 2015 - 9 Oct 2015, Taipei (Taiwan)
Y2  - 5 Oct 2015 - 9 Oct 2015
M2  - Taipei, Taiwan
LB  - PUB:(DE-HGF)6
UR  - https://juser.fz-juelich.de/record/279019
ER  -