期刊
MATERIALS CHEMISTRY AND PHYSICS
卷 132, 期 2-3, 页码 387-394出版社
ELSEVIER SCIENCE SA
DOI: 10.1016/j.matchemphys.2011.11.041
关键词
Nanostructures; Crystal growth; Precipitation; Electrochemical properties
资金
- National Natural Science Foundation of China [20876071, 21076099, 21075054]
- Universities Natural Science Foundation of Jiangsu Province [11KJB480001]
- Jiangsu University [10JDG120]
One-dimensional (1D) beta-Ni(OH)(2) nanostructure with high surface area have been successfully synthesized via the crystallization-dissolution-recrystallization growth mechanism. The reason why the 1D beta-Ni(OH)(2) nanowires can be obtained is that the intermediates alpha-Ni(OH)(2) crystals is internal unstable state and the reaction system switched from alkalescence to acidity with increasing of reaction time. The switch from alkalescence to acidity of reaction system attribute to the hydrolysis of CF3COONa which is the strong base-weak acid salt. In the initial stage, the hydrolysis of CF3COONa provides controlled quantities of OH- ions for the formation of alpha-Ni(OH)(2) crystals. While the OH- supplies to the precipitation of Ni(OH)(2), the CF3COOH of the system increases continually. Following the incessant increase of the concentration of CF3COOH, the reaction system switched from alkalescence to acidity. The unstable state of alpha-Ni(OH)(2) crystals derived from that CF3COO-, H2O, and NO3- were intercalated into the interlayer space of alpha-Ni(OH)(2) crystals. The unstable state of alpha-Ni(OH)(2) crystals make these crystals easy to redissolute into the solution and recrystallizate. The unique morphology and large BET surface areas give beta-Ni(OH)(2) nanowires an advantage over the beta-Ni(OH)(2) nanosheets in the application for nonenzymatic glucose sensor. The nonenzymatic glucose sensor based on one-dimensional beta-Ni(OH)(2) nanostructure exhibits an enhanced electrocatalytic property, high sensitivity, and fast amperometric sensing toward oxidation of glucose. (C) 2011 Elsevier B.V. All rights reserved.
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