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Mathias Widmaier
Mathias Widmaier
Mercedes-AMG GmbH
Bestätigte E-Mail-Adresse bei mercedes-benz.com
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Zitiert von
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High voltage asymmetric hybrid supercapacitors using lithium-and sodium-containing ionic liquids
S Fleischmann, M Widmaier, A Schreiber, H Shim, FM Stiemke, ...
Energy Storage Materials 16, 391-399, 2019
582019
Tuning pseudocapacitive and battery-like lithium intercalation in vanadium dioxide/carbon onion hybrids for asymmetric supercapacitor anodes
S Fleischmann, M Zeiger, N Jäckel, B Krüner, V Lemkova, M Widmaier, ...
Journal of materials chemistry A 5 (25), 13039-13051, 2017
462017
Porous carbon as a quasi-reference electrode in aqueous electrolytes
J Lee, N Jäckel, D Kim, M Widmaier, S Sathyamoorthi, P Srimuk, C Kim, ...
Electrochimica Acta 222, 1800-1805, 2016
402016
Influence of carbon distribution on the electrochemical performance and stability of lithium titanate based energy storage devices
M Widmaier, N Jäckel, M Zeiger, M Abuzarli, C Engel, L Bommer, ...
Electrochimica Acta 247, 1006-1018, 2017
392017
Carbon as quasi-reference electrode in unconventional lithium-salt containing electrolytes for hybrid battery/supercapacitor devices
M Widmaier, B Krüner, N Jäckel, M Aslan, S Fleischmann, C Engel, ...
Journal of The Electrochemical Society 163 (14), A2956, 2016
342016
Continuous silicon oxycarbide fiber mats with tin nanoparticles as a high capacity anode for lithium-ion batteries
A Tolosa, M Widmaier, B Krüner, JM Griffin, V Presser
Sustainable Energy & Fuels 2 (1), 215-228, 2018
322018
Valence‐Tuned Lithium Titanate Nanopowder for High‐Rate Electrochemical Energy Storage
M Widmaier, K Pfeifer, L Bommer, V Presser
Batteries & Supercaps 1 (1), 11-26, 2018
192018
Comparison of organic electrolytes at various temperatures for 2.8 áV–Li-ion hybrid supercapacitors
H Shim, Í Budak, V Haug, M Widmaier, V Presser
Electrochimica Acta 337, 135760, 2020
152020
Understanding interlayer deprotonation of hydrogen titanium oxide for high-power electrochemical energy storage
S Fleischmann, K Pfeifer, M Widmaier, H Shim, O Budak, V Presser
ACS Applied Energy Materials 2 (5), 3633-3641, 2019
142019
Hybrid supercapacitor, including an electrolyte composition, having improved conductivity
E Buehler, M Widmaier, S Hahn, E Thomas
US Patent 10,269,507, 2019
82019
Front Cover: Valence‐Tuned Lithium Titanate Nanopowder for High‐Rate Electrochemical Energy Storage (Batteries & Supercaps 1/2018)
M Widmaier, K Pfeifer, L Bommer, V Presser
Batteries & Supercaps 1 (1), 1-1, 2018
22018
Optimized hybrid supercapacitor
E Buehler, M Widmaier, P Verma, P Hajiyev, S Hahn, L Bommer
US Patent App. 16/343,894, 2019
12019
Hybrid supercapacitor
E Buehler, F Golks, M Widmaier, P Verma, T Wagner
US Patent 10,381,168, 2019
12019
Aqueous electrolyte, use of the electrolyte and hybrid supercapacitor containing the electrolyte
E Buehler, M Widmaier, P Verma, S Hahn, E Thomas
US Patent 10,381,169, 2019
12019
Hybrid supercapacitor
E Buehler, F Golks, M Widmaier, P Verma, T Wagner
US Patent 10,381,168, 2019
12019
Electrolyte additive for hybrid supercapacitors to reduce charge transfer resistance, and hybrid supercapacitor including the same
E Buehler, M Widmaier, S Hahn, E Thomas
US Patent 10,153,097, 2018
12018
Improvement of hybrid supercapacitors by optimization of electrode design and material properties
M Widmaier
Saarländische Universitäts-und Landesbibliothek, 2018
12018
Hybrid Supercapacitor
E Buehler, M Widmaier, P Verma, S Hahn, E Thomas
US Patent App. 15/440,695, 2017
12017
Hybridized Electrode for a Hybrid Supercapacitor
E Buehler, M Widmaier, P Verma, S Hahn, E Thomas
US Patent App. 15/367,658, 2017
12017
Direct Current Energy Source and Electrical Consumer
E Buehler, F Golks, M Widmaier, P Verma, T Wagner
US Patent App. 15/254,238, 2017
12017
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