Hierarchical Zn-Doped CoO Nanoflowers for Electrocatalytic Oxygen Evolution Reaction

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Hierarchical Zn-Doped CoO Nanoflowers for Electrocatalytic Oxygen Evolution Reaction

机译：用于电催化氧气进化反应的等级Zn掺杂的Cooflowers

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Hierarchical Zn-doped CoO nanoflowers have been prepared using their hydroxides as precursors. The nanoflowers are assembled by dozens of 2D nanoplates. Each nanoplate is formed by numerous Zn-doped CoO nanoparticles. Zn-doped CoO catalyst is highly efficient for electrocatalytic water oxidation with a low overpotential (eta=293 mV at j=10 mA cm(-2)) and long-term stability, which is comparable to the commercial RuO2 catalysts in alkaline media. The 3D hierarchical structure provides abundant surface catalytic sites, while the density functional theory (DFT) calculations show that the Zn doping is also beneficial for the enhanced oxygen evolution reaction (OER) activities. This series of novel hierarchical porous nanoflowers is a promising anode material for water oxidation.

机译：使用其氢氧化物作为前体制备等级Zn掺杂的CooFlowers。纳米轧机由几十个2D纳米板组装。每个纳米板由许多Zn掺杂的CoO纳米颗粒形成。 Zn掺杂的CoO催化剂对于用低过电压的电催化水氧化高效（ETA = 293mV，在J = 10 mAcm（-2））和长期稳定性，其与碱性介质中的商业Ruo2催化剂相当。 3D层次结构提供丰富的表面催化位点，而密度泛函理论（DFT）计算表明，Zn掺杂也有利于增强的氧气进化反应（OER）活性。该系列新型等级多孔纳米轧辊是用于水氧化的有前途的阳极材料。

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《ChemCatChem》 |2019年第5期|共7页
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正文语种 eng
中图分类物理化学（理论化学）、化学物理学;
关键词
Hierarchical structure; Zn doping; CoO; Electrocatalysts; Oxygen evolution;

机译：层次结构;Zn掺杂;COO;电催化剂;氧气进化;

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专利

1. Hierarchical Zn-Doped CoO Nanoflowers for Electrocatalytic Oxygen Evolution Reaction [J] . ChemCatChem . 2019,第5期

机译：用于电催化氧气进化反应的等级Zn掺杂的Cooflowers
2. Microwave-Assisted Template-Free Synthesis of Ni_3(BO_3)_2(NOB) Hierarchical Nanoflowers for Electrocatalytic Oxygen Evolution [J] . Ede Sivasankara Rao, Anantharaj Sengeni, Subramanian Balasubramanian, Energy & fuels . 2018,第5期

机译：微波辅助无模板合成Ni_3（BO_3）_2（NOB）多层纳米花用于电催化氧的释放
3. Preparation and electrocatalytic activity of 3D hierarchical porous spinel CoFe2O4 hollow nanospheres as efficient catalyst for Oxygen Reduction Reaction and Oxygen Evolution Reaction (vol 151, pg 276, 2015) [J] . Xu Yujiao, Bian Weiyong, Wu Jiao, Electrochimica Acta . 2015,第Null期

机译：3D分级尖晶石型CoFe2O4空心纳米球的制备及其电催化活性，作为高效的氧还原反应和析氧反应催化剂（第151卷，第276页，2015）
4. A study of hybrid bifunctional CuCo_2O_4/rGO electrocatalytic oxygen reduction and evolution reactions for rechargeable metal-air batteries [C] . O. Padmaraj, C. Venkateswaran DAE Solid State Physics Symposium . 2020

机译：用于充电金属 - 空气电池的杂交双官能CUCO_2O_4 / RGO电催化氧还原及演化反应的研究
5. A theoretical study of the electrocatalytic oxygen reduction reaction and related reactions on platinum group metals. [D] . Hyman, Matthew P. 2007

机译：铂族金属电催化氧还原反应及相关反应的理论研究。
6. Oxygen Evolution Reaction: Core–Shell Structured NiFeSn@NiFe (Oxy)Hydroxide Nanospheres from an Electrochemical Strategy for Electrocatalytic Oxygen Evolution Reaction (Adv. Sci. 10/2020) [O] . Mingxing Chen, Shenglin Lu, Xian‐Zhu Fu, 2020

机译：析氧反应：一种基于电化学催化析氧反应的电化学策略的核-壳结构NiFeSn @ NiFe（羟基）氢氧化物纳米球（Adv。Sci。10/2020）
7. Coordination environment evolution of Co(ii) during dehydration and re-crystallization processes of KCoPO4·H2O towards enhanced electrocatalytic oxygen evolution reaction [O] . Quande Che, Xiaobin Xie, Qian Ma, 2020

机译：KCOPO4·H2O脱水脱水和再结晶过程中CO（II）的协调环境演变，促进电催化氧进化反应

Hierarchical Zn-Doped CoO Nanoflowers for Electrocatalytic Oxygen Evolution Reaction

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