Temperature Effect on the Topotatic Synthesis of Spinel MnCoO Nanoparticles for Efficient Oxygen Reduction Electrocatalyst

Sunglun Kwon; Jong Hyeon Lee

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Temperature Effect on the Topotatic Synthesis of Spinel MnCoO Nanoparticles for Efficient Oxygen Reduction Electrocatalyst

机译：对尖晶石MNCOO纳米粒子渗透合成的温度效应，用于高效氧还原电催化剂

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In this study,we demonstrated the temperature effect of our previously developed topotatic catalysis for the formation of Mn_(0.005)Co_(2.995)O4(MnCoO) spinel nanoparticles.Topotatic catalysis induces spinel MnCoO nanoparticles through the redox reaction of the metal cation(Co~(2+) and Mn~(2+)) on the Co(OH)2 nanosheet surface,acting as a growth template.This study particularly elucidates the temperature effect on spinel MnCoO nanoparticles'size,morphology,and crystallinity based on their electrocatalytic performance in an oxygen reduction reaction(ORR).We found that lower temperature produces an amorphous phase,whereas higher temperature induces a large aggregate.We obtained the monodispersed MnCoO nanocubes at approximately 90°C,exhibiting the best ORR performance with an electron-transfer number of 3.86.

机译：在这项研究中，我们证明了我们先前开发的用于形成Mn_0.005）Co_2.995）O4（MnCoO）尖晶石纳米颗粒的拓扑静电催化的温度效应。拓扑学催化通过金属阳离子（Co~（2+）和Mn~（2+）在Co（OH）2纳米片表面的氧化还原反应，作为生长模板诱导尖晶石MnCoO纳米颗粒。本研究基于尖晶石MnCoO纳米粒子在氧还原反应（ORR）中的电催化性能，特别阐明了温度对其尺寸、形态和结晶度的影响。我们发现，较低的温度会产生非晶相，而较高的温度会产生较大的聚集。我们在大约90°C的温度下获得了单分散的MnCoO纳米立方体，显示出最佳的ORR性能，电子转移数为3.86。

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《Bulletin of the Korean Chemical Society》 |2021年第5期|共6页
作者
Sunglun Kwon; Jong Hyeon Lee;
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作者单位

Department of Chemistry The Catholic University of Korea Bucheon 14662 South Korea.;

Department of Chemistry The Catholic University of Korea Bucheon 14662 South Korea.;

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原文格式 PDF
正文语种 eng
中图分类化学;
关键词
Spinel; Fuel cells; Oxygen reduction reaction; Co(OH)2 nanosheet; Electrocatalyst;

机译：尖晶石;燃料电池;氧还原反应;CO（OH）2纳米晶片;电催化剂;

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Temperature Effect on the Topotatic Synthesis of Spinel MnCoO Nanoparticles for Efficient Oxygen Reduction Electrocatalyst

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