Citation: Peng Li CHENG, Jian Min ZHANG, Qiu Zhi SHI, Chang Chun YANG. THE ELECTROCATALYTIC ACTIVITY OF NiC₂0₄ FOR THE OXYGEN EVOLUTION REACTION[J]. Chinese Chemical Letters, ;1993, 4(9): 821-824. shu

THE ELECTROCATALYTIC ACTIVITY OF NiC₂0₄ FOR THE OXYGEN EVOLUTION REACTION

Department of Chemistry, Zhengzhou University, Zhengzhou, 450052

Received Date: 11 May 1993

A spinel oxide NiCo₂0₄ prepared by thermal decomposition is of very high activity for the oxygen evolution reaction (OER) in alkaline solution.The oxygen evolution overpotential on NiCo₂0₄ is 0.252-0.262V in 10 M NaOH solution at 343K and current density 100 mAcm^-2.
1. [1]
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