2008
DOI: 10.1016/j.ijhydene.2007.12.019
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Electrochemical characterization of AB2 alloys used for negative electrodes in Ni/MH batteries

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Cited by 73 publications
(38 citation statements)
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“…In the present case, since Zr 7 Ni 10 concurrently presents with the C15 phase, the higher sorption performances cannot be solely related to the stacking faults itself. Moreover, there are reports suggesting that the Zr 7 Ni 10 offers catalytic activity for surface reactions and also acts as a medium for charge diffusion [30][31][32][33]. However, in spite of the presence of Zr 7 Ni 10 phase since few C15 compositions did not store hydrogen appreciably, it appears to be the distinct electronic structure of some composition of Zr-Mn-Ni makes the difference.…”
Section: Hydrogen Storage Characteristicsmentioning
confidence: 99%
“…In the present case, since Zr 7 Ni 10 concurrently presents with the C15 phase, the higher sorption performances cannot be solely related to the stacking faults itself. Moreover, there are reports suggesting that the Zr 7 Ni 10 offers catalytic activity for surface reactions and also acts as a medium for charge diffusion [30][31][32][33]. However, in spite of the presence of Zr 7 Ni 10 phase since few C15 compositions did not store hydrogen appreciably, it appears to be the distinct electronic structure of some composition of Zr-Mn-Ni makes the difference.…”
Section: Hydrogen Storage Characteristicsmentioning
confidence: 99%
“…The hydrogen reversible capacities for Zr 9 Ni 11 and Zr 7 Ni 10 , are 50% and 77%, respectively. The electrochemical properties of Zr 7 Ni 10 , Zr 9 Ni 11 and Zr 8 Ni 21 were studied by Ruiz et al [2,3] and Nei et al [4,5]. It was found [3] that Zr 8 Ni 21 alloy had a better charge/discharge performance than Zr 7 Ni 10 and Zr 9 Ni 11 .…”
Section: Introductionmentioning
confidence: 99%
“…[17][18][19][20] In addition, the multicomponent alloys have the best electrochemical properties in the as-cast state. [21][22][23][24] Compared to annealed material, cast material generally contains a larger fraction of secondary minor phase(s) due to microsegregation (coring) of the primary phase(s) during dendrite solidification. Rapid solidification is often employed to reduce the level of coring and reduce or eliminate minor phases that are frequently not desired.…”
mentioning
confidence: 99%