Rebecca Wilhelm
Research Field
Li-Ion Battery Research: Surface and interface analysis of active materials using high-resolution analytical methods: from post mortem to in situ and operando methods (Aqua-POp Project)
Scientific Contribution
Articles
Lead Author:
Elucidating the detrimental effect of intercalated protons in Ni-rich NCMs on structural stability and cycle life / Wilhelm, R.; Helmer, S.; Gasteiger, H. A.; Oswald, S. / EES Batteries, 2025, 1, 1637 - 1655 (Open Access) – DOI
Exploring the Electrochemical Stability Window of an All-Solid-State Composite Cathode via a Novel Operando Tender XPS Setup / Wilhelm, R.=; Schuster, R.=; Kutsch, T.; Qian, S.; Mahl, J.; Kratky, T.; Wandt, J.; Crumlin, E. J.; Gasteiger, H. A. / ACS Applied Materials and Interfaces, 2025, 1944-8244 (Open Access) – DOI
Effect of washing on nickel-rich NCMs: methodology to quantify the lithium/proton-exchange kinetics, the inserted protons, and the structural changes / Oswald, S.=; Wilhelm, R.=; Kratky, T.; Szentmiklosi, L.; Maroti, B.; Harsanyi, I.; Hallweger, S. A.; Kieslich, G.; Günther, S.; Gasteiger, H. A. / J. Materials Chemistry A, 2024 (Open Access) – DOI
Co-Author:
Chemical and Structural Degradation of Single Crystalline High‐Nickel Cathode Materials During High‐Voltage Holds / Vettori, K.=; Schröder, S.=; Ahrens, L.; Wilhelm, R.; Kremer, S.; Eckhardt, J. K.; Brezesinski, T.; Kondrakov, A.; Mayer, J.; Henss, A.; Janek, J. / Advanced Energy Materials, 2025, 2502148 – DOI
External Short-Circuit Scenarios under Different Mechanical Pressures Applied to Lithium-Ion Cells with Silicon-Dominant Anodes / Friedrich, S.; Savvin, V.; Wilhelm, R.; Jossen, A. / J. Electrochem. Soc., 2025, 172 (1), 010521 – DOI
Hydrosilane‐Functionalized [2.2] Paracyclophane for Plasma‐Etch‐Resistant and Post‐Modifiable Poly (Para‐Xylylene) / Bichlmaier, L.; Teshima, T. F.; Kostenko, A.; Boustani, G. A.; Wilhelm, R.; Stigler, S.; Tanaka, S.; Onoe, H.; Wolfrum, B.; Inoue, S. / Advanced Materials Interfaces, 2024, 12 (6), 2400701 – DOI
Comparative Evaluation of LMR-NCM and NCA Cathode Active Materials in Multilayer Lithium-Ion Pouch Cells: Part II. Rate Capability, Long-Term Stability, and Thermal Behavior / Kraft, L.; Zünd, T.; Schreiner, D.; Wilhelm, R.; Günter, F. J.; Reinhart, G.; Gasteiger, H. A.; Jossen, A. / J. Electrochem. Soc., 2021, 168, 020537 (Open Access) - DOI
Comparative Evaluation of LMR-NCM and NCA Cathode Active Materials in Multilayer Lithium-Ion Pouch Cells: Part I. Production, Electrode Characterization, and Formation / Schreiner, D.; Zünd, T.; Günter, F. J.; Kraft, L.; Stumper, B.; Linsenmann, F.; Schüßler, M.; Wilhelm, R.; Jossen, A.; Reinhart, G. / J. Electrochem. Soc., 2021, 168, 030507 (Open Access) - DOI
Interrelationship Between the Open Circuit Potential Curves in a Class of Ni-Rich Cathode Materials/ Kimura, K.; Wilhelm, R.; Besli, M.; Kim, S.; Usubelli, C.; Ziegler, J.; Klein, R.; Christensen, J.; Gorlin, Y. / J. Electrochem. Soc., 2020, 167, 040510 (Open Access) - DOI
Patents
Management Systems and Methods for Silicon-Containing Lithium-Ion Batteries / Subbaraman, A.; Gorlin, Y.; Usubelli, C.; Wilhelm, R.; Ramezan, P. S.; Klein, R. - DOI
Method for Predicting an Open-Circuit Potential Curve as a Function of Lithiation for a Class of Cathode Materials / Gorlin, Y.; Kimura, K.; Wilhelm, R.; Kim, S.; Usubelli, C.; Besli, M.; Ziegler, J.; Klein, R.; Christensen, J. - DOI