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Developing cost-effective and high-performance oxygen evolution reaction(OER)electrocatalysts has become the intense research on pursuing emerging renewable energy conversion,in which exploring and investigating the intrinsic nature of efficient and stable CuCo spinel catalysts toward OER in alkaline media is highly desirable.Herein,Cu1_xCo2+xO4 oxy-spinel nanoflakes are fabricated by a facile hydrothermal method with the oxidation of ammonia water.In the same condition,Cu1-x-Co2+xS4 thio-spinel nanospheres are formed without oxidation.In OER process,the as-obtained Cu1-xCo2+xO4 nanoflakes and Cu1-xCo2+xS4 nanospheres possess the anodic overpotential of 267 and 297 mV in alkaline media to drive the current density of 10mA/cm2,respectively,outperforming the state-of-the-art noble metal catalyst of RuO2.X-ray photoelectron spectroscopy analysis exhibits the higher ratio value of Co(Ⅲ)/Co(Ⅱ)in Cu1-xCo2+xO4 than that in Cu1-xCo2+xS4,suggesting that the strongly-electronegative oxygen efficiently predominates in regulating valence states of Co active sites in spinel structures.Remarkably,density functional theory simulation further reveals that the increased valence state of Co could accelerate the electron exchange between catalysts and oxygen adsorbates during electrocatalysis,thus contributing to the higher OER activity of Cu1-xCo2+xO4 catalysts.This work provides deep insight regarding the significance of non-metal element(O and S)in CuCo spinel structure catalysts,as well as presents a promising approach to exploit higher performance and grasp the mechanism of various non-noble-metal spinel catalysts for water oxidation.
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篇名 Non-metallic electronic regulation in CuCo oxy-/thio-spinel as advanced oxygen evolution electrocatalysts
来源期刊 中国科学:化学(英文版) 学科
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年,卷(期) 2021,(1) 所属期刊栏目 ARTICLES
研究方向 页码范围 101-108
页数 8页 分类号
字数 语种 英文
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中国科学:化学(英文版)
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1674-7291
11-5839/O6
16开
北京东黄城根北街16号
1950
eng
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