Martin Winter
Martin Winter
Chemistry, Materials Science, Chemical Engineering
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Cited by
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What are batteries, supercapacitors and fuel cells?
M Winter, R Brodd
Chemical Reviews 104 (10), 4245-4270, 2004
Ageing mechanisms in lithium-ion batteries
J Vetter, P Novak, MR Wagner, C Veit, KC Möller, JO Besenhard, ...
Journal of Power Sources 147 (1), 269-281, 2005
Insertion electrode materials for rechargeable lithium batteries
M Winter, JO Besenhard, ME Spahr, P Novak
Advanced materials 10 (10), 725-763, 1998
Performance and cost of materials for lithium-based rechargeable automotive batteries
R Schmuch, R Wagner, G Hörpel, T Placke, M Winter
Nature energy 3 (4), 267-278, 2018
Electrochemical lithiation of tin and tin-based intermetallics and composites
M Winter, JO Besenhard
Electrochimica Acta 45 (1-2), 31-50, 1999
Before Li ion batteries
M Winter, B Barnett, K Xu
Chemical reviews 118 (23), 11433-11456, 2018
Will advanced lithium-alloy anodes have a chance in lithium-ion batteries?
JO Besenhard, J Yang, M Winter
Journal of Power Sources 68 (1), 87-90, 1997
Lithium ion, lithium metal, and alternative rechargeable battery technologies: the odyssey for high energy density
T Placke, R Kloepsch, S Dühnen, M Winter
Journal of Solid State Electrochemistry 21, 1939-1964, 2017
The Solid Electrolyte Interphase - The Most Important and the Least Understood Solid Electrolyte in Rechargeable Li Batteries
M Winter
Zeitschrift für Physikalische Chemie 223 (10-11), 1395-1406, 2009
Small particle size multiphase Li-alloy anodes for lithium-ion batteries
J Yang, M Winter, JO Besenhard
Solid State Ionics 90 (1), 281-287, 1996
Filming mechanism of lithium-carbon anodes in organic and inorganic electrolytes
JO Besenhard, M Winter, J Yang, W Biberacher
Journal of Power Sources 54 (2), 228-231, 1995
Post-lithium-ion battery cell production and its compatibility with lithium-ion cell production infrastructure
F Duffner, N Kronemeyer, J Tübke, J Leker, M Winter, R Schmuch
Nature Energy 6 (2), 123-134, 2021
Electrochemical in situ investigations of SEI and dendrite formation on the lithium metal anode
G Bieker, M Winter, P Bieker
Physical Chemistry Chemical Physics 17 (14), 8670-8679, 2015
A rechargeable zinc-air battery based on zinc peroxide chemistry
W Sun, F Wang, B Zhang, M Zhang, V Küpers, X Ji, C Theile, P Bieker, ...
Science 371 (6524), 46-51, 2021
Silicon/graphite composite electrodes for high-capacity anodes: influence of binder chemistry on cycling stability
NS Hochgatterer, MR Schweiger, S Koller, PR Raimann, T Wöhrle, ...
Electrochemical and solid-state letters 11 (5), A76, 2008
Fast charging of lithium‐ion batteries: a review of materials aspects
M Weiss, R Ruess, J Kasnatscheew, Y Levartovsky, NR Levy, ...
Advanced Energy Materials 11 (33), 2101126, 2021
The mechanism of HF formation in LiPF6 based organic carbonate electrolytes
SF Lux, IT Lucas, E Pollak, S Passerini, M Winter, R Kostecki
Electrochemistry Communications 14 (1), 47-50, 2012
Tin and tin-based intermetallics as new anode materials for lithium-ion cells
M Wachtler, JO Besenhard, M Winter
Journal of Power Sources 94 (2), 189-193, 2001
Graphites for lithium‐ion cells: the correlation of the first‐cycle charge loss with the brunauer‐emmett‐teller surface area
M Winter, P Novák, A Monnier
Journal of the Electrochemical Society 145 (2), 428, 1998
Current research trends and prospects among the various materials and designs used in lithium-based batteries
R Wagner, N Preschitschek, S Passerini, J Leker, M Winter
Journal of Applied Electrochemistry 43, 481-496, 2013
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