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Synthesis, characterization, and lithium storage capability of AMoO4 (A = Ni, Co) nanorods.

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Synthesis, characterization, and lithium storage capability of AMoO4 (A = Ni, Co) nanorods.

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dc.contributor.author Xiao, Wei.
dc.contributor.author Chen, Jun Song.
dc.contributor.author Li, Chang Ming.
dc.contributor.author Xu, Rong.
dc.contributor.author Lou, David Xiong Wen.
dc.date.accessioned 2012-07-12T07:25:52Z
dc.date.available 2012-07-12T07:25:52Z
dc.date.copyright 2010
dc.date.issued 2012-07-12
dc.identifier.citation Xiao, W., Chen, J. S., Li, C. M., Xu, R., & Lou, D. X. W. (2010). Synthesis, characterization, and lithium storage capability of AMoO4 (A = Ni, Co) nanorods. Chemistry of materials, 22(3), 746-754.
dc.identifier.uri http://hdl.handle.net/10220/8318
dc.description.abstract One-dimensional (1D) AMoO4·nH2O (A = Ni, Co) nanorods have been synthesized by a facile hydrothermal method. The effect of different synthetic conditions on the morphologies of the final products was systematically investigated. The size of the nanorods can be easily controlled by adding ethanol in the synthetic solution. For the first time, the self-assembled growth of oriented NiMoO4·nH2O nanorod arrays on Ti-foil substrates was achieved. The thermal dehydration and phase transformation processes of AMoO4·nH2O nanorods were thoroughly investigated by TG-DTA and time-resolved synchrotron XRD. As-prepared hydrate nanorods can be further converted to corresponding AMoO4 nanorods by annealing at 300−600 °C for 1 h without significant alteration of 1D morphology. Electrochemical lithium storage capabilities of dehydrated AMoO4 nanorods have been investigated. The results suggest their potential use as cathode materials for lithium ion batteries.
dc.language.iso en
dc.relation.ispartofseries Chemistry of materials
dc.rights © 2009 American Chemical Society.
dc.subject DRNTU::Engineering::Materials::Magnetic materials.
dc.title Synthesis, characterization, and lithium storage capability of AMoO4 (A = Ni, Co) nanorods.
dc.type Journal Article
dc.contributor.school School of Chemical and Biomedical Engineering
dc.identifier.doi http://dx.doi.org/10.1021/cm9012014

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