Verena Küpers

KÜPERS, Dr. Verena

MEET - Münster Electrochemical Energy Technology
Raum: C2.2.14
Wilhelm-Schickard-Straße 8
D-48149 Münster

Tel.: +49 251 83-38707
verena.kuepers@uni-muenster.de

ORCID ID: 0000-0003-0193-1088

Position: Postdoktorandin

Bereich / Gruppe: Materialien

Artikel

Weiling, Matthias, Lechtenfeld, Christian, Stuckenberg, Silvan, Pfeiffer, Felix, Wang, Jian-Feng, Nowak, Sascha, Küpers, Verena, und Baghernejad, Masoud. 2025. „Drawing from the Old - The First Ever Sultone as Electrolyte Additive in High-voltage NMC811 || AG+SiOx Multilayer Pouch Cells.“ Small 21 (41) e07089. doi: 10.1002/smll.202507089.
Das, Ankita, Pfeiffer, Felix, Arifiadi, Anindityo, Weiling, Matthias, Kupers, Verena, Baghernejad, Masoud, Winter, Martin, und Glorius, Frank. 2025. „Bifunctional Electrolyte Additive Enabling Simultaneous Interphase Formation on Both Electrodes in High-Energy Lithium-Ion Batteries.“ Small 21 e05772. doi: 10.1002/smll.202505772.
Weiling, Matthias, Pfeiffer, Felix, Lechtenfeld, Christian, Stuckenberg, Silvan, Fehlings, Nick, Frankenstein, Lars, Küpers, Verena, Wang, Jian-Fen, Nowak, Sascha, und Baghernejad, Masoud. 2024. „Comprehensive Study on Cell Components in High-Voltage Pouch Cells with Lithium Perchlorate: Decomposition, Transesterification, Chlorination, Deposition, and Self-Discharge.“ Batteries & Supercaps 8 (4) e202400568. doi: 10.1002/batt.202400568.
Stuckenberg, Silvan; Bela, Marlena Maria; Lechtenfeld, Christian-Timo; Mense, Maximilian; Küpers, Verena; Ingber, Tjark Thorben Klaus; Winter, Martin; Stan, Marian Cristian. 2023. „Influence of LiNO3 on the Lithium Metal Deposition Behavior in Carbonate-Based Liquid Electrolytes and on the Electrochemical Performance in Zero-Excess Lithium Metal Batteries.“ Small 2305203: 1–10. doi: 10.1002/smll.202305203.
Stuckenberg, Silvan, Bela, Marlena Maria, Lechtenfeld, Christian-Timo, Mense, Maximilian, Küpers, Verena, Ingber, Tjark Thorben Klaus, Winter, Martin, und Stan, Marian Cristian. 2023. „The influence of LiNO3 on the electrochemical performance of anode-free LMBs with carbonate-based electrolytes.“ präsentiert auf der 1st #BatteryCityMünster PhD-Day, Münster.
Herbers, Lukas, Minar, Jaroslav, Stuckenberg, Silvan, Küpers, Verena, Berghus, Debbie, Nowak, Sascha, Winter, Martin, und Bieker, Peter. 2023. „The Influence of Polyethylene Oxide Degradation in Polymer-Based Electrolytes for NMC and Lithium Metal Batteries.“ Advanced Energy and Sustainability Research 4 (12) 2300153. doi: 10.1002/aesr.202300153.
Küpers, Verena, Kolek, Martin, Bieker, Peter, Stan, Marian, Placke, Tobias, und Winter, Martin. 2022. „Negative Sulfur-Based Electrodes and their Application in Battery Cells: Dual-Ion Batteries as an Example.“ Journal of Solid State Electrochemistry 26: 2077–2088. doi: 10.1007/s10008-022-05215-w.
Küpers, V, Dohmann, JF, Bieker, P, Winter, M, Placke, T, und Kolek, M. 2021. „Opportunities and Limitations of Ionic-Liquid- and Organic Carbonate Solvent-Based Electrolytes for Mg-Ion-Based Dual-Ion Batteries.“ ChemSusChem 14 (20): 4480–4498. doi: 10.1002/cssc.202101227.
Bieker, G, Küpers, V, Kolek, M, und Winter, M. 2021. „Intrinsic differences and realistic perspectives of lithium-sulfur and magnesium-sulfur batteries.“ Communications Materials 2: 37.. doi: 10.1038/s43246-021-00143-0.
Dohmann, JF, Horsthemke, F, Küpers, V, Bloch, S, Preibisch, Y, Kolesnikov, A, Kolek, M, Stan, MC, Winter, M, und Bieker, P. 2021. „Galvanic Couples in Ionic Liquid‐Based Electrolyte Systems for Lithium Metal Batteries—An Overlooked Cause of Galvanic Corrosion?“ Advanced Energy Materials 2101021. doi: 10.1002/aenm.202101021.
Dohmann, JF, Horsthemke, D, Küpers, V, Krueger, B, Kolesnikov, A, Kolek, M, Wittstock, G, Winter, M, und Bieker, P. 2021. „Galvanic Corrosion as a Challenge for the Application of Ionic Liquids in O2ǁLi Cell Chemistries.“ Beitrag präsentiert auf der Advanced Battery Power - Kraftwerk Batterie 2021, Online
Casino, S, Beuse, T, Küpers, V, Börner, M, Gallasch, T, Winter, M, und Niehoff, P. 2021. „Quantification of aging mechanisms of carbon-coated and uncoated silicon thin film anodes in lithium metal and lithium ion cells.“ Journal of Energy Storage 41: 102812.. doi: 10.1016/J.EST.2021.102812.
Perner, V, Diddens, D, Otteny, F, Küpers, V, Bieker, P, Esser, B, Winter, M, und Kolek, M. 2021. „Insights into the Solubility of Poly (vinylphenothiazine) in Carbonate-Based Battery Electrolytes.“ ACS applied materials & interfaces 13 (10): 12442–12453. doi: 10.1021/acsami.0c20012.
Sun, Wei, Wang, Fei, Zhang, Bao, Zhang, Mengyi, Küpers, Verena, Ji, Xiao, Theile, Claudia, Bieker, Peter, Xu, Kang, Wang, Chunsheng, und Winter, Martin. 2021. „A rechargeable zinc-air battery based on zinc peroxide chemistry.“ Science 371 (6524): 46–51. doi: 10.1126/science.abb9554.
Küpers, V, Weintz, D, Mück-Lichtenfeld, C, Bieker, P, Winter, M, und Kolek, M. 2020. „Approaching Electrochemical Limits of MgxClyz+ Complex-Based Electrolytes for Mg Batteries by Tailoring the Solution Structure.“ Journal of The Electrochemical Society 167 (16): 160505.. doi: 10.1149/1945-7111/abc7e4.
Meister, P, Küpers, V, Kolek, M, Kasnatscheew, J, Pohlmann, S, Winter, M, und Placke, T. 2021. „Enabling Mg-Based Ionic Liquid Electrolytes for Hybrid Dual-Ion Capacitors.“ Batteries & Supercaps 4: 504–512. doi: 10.1002/batt.202000246.
Kuepers, V, Kolek, M, Bieker, P, Winter, M, und Brunklaus, G. 2019. „In situ 7Li-NMR analysis of lithium metal surface deposits with varying electrolyte compositions and concentrations.“ Physical Chemistry Chemical Physics 21: 26084–26094. doi: 10.1039/C9CP05334D.
Küpers, Verena, Kolek, Martin, Bieker, Peter, Winter, Martin, und Brunklaus, Gunther. 2019. „In Situ NMR Analysis of Lithium Metal Surface Deposits from Electrolytes with Varying Salt Concentrations.“ Beitrag präsentiert auf der Electrochemical Conference on Energy and the Environment: Bioelectrochemistry and Energy Storage, Glasgow, Scotland
Bieker, Georg, Kolek, Martin, Küpers, Verena, Kolesnikov, Aleksei, Betz, Johannes, Bieker, Peter Maria, Stan, Marian, und Winter, Martin. 2019. „Magnesium and Lithium Metal Anodes: Future Battery Technologies Side-by-Side?“ Beitrag präsentiert auf der Advanced Lithium Batteries for Automobile Applications ABAA 12, Ulm, Germany
Bieker, Peter, Liebenau, Dominik, Stan, Marian, Kolek, Martin, Kolesnikov, Aleksei, Zhang, Mengyi, Küpers, Verena, Li, Meirong, und Winter, Martin. 2019. „Lithium: Protection, Modification and the Use in Different Battery Systems.“ Beitrag präsentiert auf der Workshop "Lithium Metal Anodes: Processing and Integration in (Solid-State) Batteries", Dresden, Germany
Küpers, Verena, Bieker, Georg, Bieker, Peter, Winter, Martin, und Kolek, Martin. 2018. „Evaluation of Pyr1,4TFSI as a (Co-)Solvent for Mg-Based Cell Systems.“ Beitrag präsentiert auf der 2nd International Symposium on Magnesium Batteries, Ulm, Germany
Küpers, Verena Brunklaus Gunther, Kolek, Martin Becking Jens, und Winter, Martin Bieker Peter. 2018. „Investigation of lithium metal surface deposition phenomena by 7Li-NMR.“ Beitrag präsentiert auf der Kraftwerk Batterie 2018, Münster

Wissenschaftliche Vorträge

Börner, Markus; Stan, Marian; Kolek, Martin; Küpers, Verena; Noll, Pascal; Winter, Martin 2020: “Chancen und Herausforderungen bei der Modifizierung und Verarbeitung von Lithium-Metall-Folien”. Batterietag NRW 2020, Essen (online), Deutschland, 28.09.2020.
Küpers, Verena; Bieker, Georg; Bieker, Peter; Winter, Martin; Kolek, Martin 2019: “Increased Oxidative Stability of Electrolytes for Mg-Based Batteries Using Ionic Liquids as (Co-)Solvents”. German Israeli Battery School 2019, Berlin, Deutschland, 14.05.2019.
Küpers, Verena; Kolek, Martin; Bieker, Peter; Winter, Martin; Brunklaus, Gunther 2018: “In Situ 7Li-NMR Analysis of Lithium Metal Surface Deposits”. Electrochemistry 2018, Ulm University, Ulm, Germany, 24.09.2018.