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Results:
1-8
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Results: 8
Authors:
Novak, P
Joho, F
Lanz, M
Rykart, B
Panitz, JC
Alliata, D
Kotz, R
Haas, O
Citation: P. Novak et al., The complex electrochemistry of graphite electrodes in lithium-ion batteries, J POWER SOU, 97-8, 2001, pp. 39-46
Authors:
Joho, F
Rykart, B
Blome, A
Novak, P
Wilhelm, H
Spahr, ME
Citation: F. Joho et al., Relation between surface properties, pore structure and first-cycle chargeloss of graphite as negative electrode in lithium-ion batteries, J POWER SOU, 97-8, 2001, pp. 78-82
Authors:
Novak, P
Panitz, JC
Joho, F
Lanz, M
Imhof, R
Coluccia, M
Citation: P. Novak et al., Advanced in situ methods for the characterization of practical electrodes in lithium-ion batteries, J POWER SOU, 90(1), 2000, pp. 52-58
Authors:
Joho, F
Novak, P
Citation: F. Joho et P. Novak, SNIFTIRS investigation of the oxidative decomposition of organic-carbonate-based electrolytes for lithium-ion cells, ELECTR ACT, 45(21), 2000, pp. 3589-3599
Authors:
Novak, P
Joho, F
Imhof, R
Panitz, JC
Haas, O
Citation: P. Novak et al., In situ investigation of the interaction between graphite and electrolyte solutions, J POWER SOU, 82, 1999, pp. 212-216
Authors:
Joho, F
Rykart, B
Imhof, R
Novak, P
Spahr, ME
Monnier, A
Citation: F. Joho et al., Key factors for the cycling stability of graphite intercalation electrodesfor lithium-ion batteries, J POWER SOU, 82, 1999, pp. 243-247
Authors:
Winter, M
Imhof, R
Joho, F
Novak, P
Citation: M. Winter et al., FTIR and DEMS investigations on the electroreduction of chloroethylene carbonate-based electrolyte solutions for lithium-ion cells, J POWER SOU, 82, 1999, pp. 818-823
Authors:
Panitz, JC
Joho, F
Novak, P
Citation: Jc. Panitz et al., In situ characterization of a graphite electrode in a secondary lithium-ion battery using Raman microscopy, APPL SPECTR, 53(10), 1999, pp. 1188-1199
Risultati:
1-8
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