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Results:
1-9
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Results: 9
Authors:
Ishihara, A
Fujimori, T
Motohira, N
Ota, K
Kamiya, N
Citation: A. Ishihara et al., High-temperature electrochemical heat pump using a water gas shift reaction. electrochemical reduction of CO2 to CO, B CHEM S J, 74(8), 2001, pp. 1517-1523
Authors:
Ota, K
Inoue, Y
Motohira, N
Kamiya, N
Citation: K. Ota et al., Hydrogen oxidation and oxygen reduction at Pt microelectrode on polymer electrolytes, J NEW M E S, 3(3), 2000, pp. 193-198
Authors:
Iinou, S
Motohira, N
Kamiya, N
Ota, K
Citation: S. Iinou et al., Formation rate of LiNiO2 and Li+ doping rate to NiO in molten carbonates containing lithium ion, ELECTROCH, 67(6), 1999, pp. 614-617
Authors:
Ishihara, A
Motohira, N
Ota, K
Kamiya, N
Citation: A. Ishihara et al., Theory of a new electrochemical heat pump, ELECTROCH, 67(5), 1999, pp. 450-457
Authors:
Motohira, N
Sensou, T
Yamauchi, A
Ogawa, K
Liu, X
Kamiya, N
Ota, K
Citation: N. Motohira et al., Effect of Mg on the solubility of NiO in molten carbonate, J MOL LIQ, 83(1-3), 1999, pp. 95-103
Authors:
Ishihara, A
Motohira, N
Ota, K
Kamiya, N
Citation: A. Ishihara et al., High temperature electrochemical heat pump using water gas shift reaction.Part I: Theoretical considerations, J APPL ELEC, 29(9), 1999, pp. 1079-1084
Authors:
Motohira, N
Takai, T
Kamiya, N
Ota, K
Citation: N. Motohira et al., Oxidation behavior of Ni in molten carbonate, B CHEM S J, 72(6), 1999, pp. 1403-1407
Authors:
Iinou, S
Motohira, N
Kamiya, N
Ota, K
Citation: S. Iinou et al., Formation of Li-doped NiO and LiNiO2 in molten carbonate, B CHEM S J, 72(2), 1999, pp. 321-326
Authors:
Nakamura, Y
Harada, T
Kuribara, H
Kishimoto, A
Motohira, N
Yanagida, H
Citation: Y. Nakamura et al., Nonlinear current-voltage characteristics with negative resistance observed at ZnO-ZnO single-contacts, J AM CERAM, 82(11), 1999, pp. 3069-3074
Risultati:
1-9
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