Tuning complex transition metal hydroxide nanostructures as active catalysts for water oxidation by a laser-chemical route.
NANO LETTERS(2015)
Abstract
Diverse transition metal hydroxide nanostructures were synthesized by laser-induced hydrolysis in a liquid precursor solution for alkaline oxygen evolution reaction (OER). Several active OER catalysts with fine control of composition, structure, and valence state were obtained including (Lix)[Ni0.66Mn0.34(OH)(2)](NO3)(CO3) (.) mH(2)O, Lix[Ni0.67Co0.33(OH)(2)](NO3)(0.25)(ORO)(0.35) (.) mH(2)O, etc. An operate overpotential less than 0.34 V at current density of 10 mA cm(-2) was achieved. Such a controllable laser-chemical route for assessing complex nanostructures in liquids opens many opportunities to design novel functional materials for advanced applications.
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Key words
Transition,metal hydroxides,water oxidation,laser chemistry,electrocatalysis three-dimensional catalyst,volume activity
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