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Literature DB >> 28338264

Engineering High-Energy Interfacial Structures for High-Performance Oxygen-Involving Electrocatalysis.

Chunxian Guo¹, Yao Zheng¹, Jingrun Ran¹, Fangxi Xie¹, Mietek Jaroniec², Shi-Zhang Qiao¹.

Abstract

Engineering high-energy interfacial structures for high-performance electrocatalysis is achieved by chemical coupling of active CoO nanoclusters and high-index facet Mn3 O4 nano-octahedrons (hi-Mn3 O4 ). A thorough characterization, including synchrotron-based near edge X-ray absorption fine structure, reveals that strong interactions between both components promote the formation of high-energy interfacial Mn-O-Co species and high oxidation state CoO, from which electrons are drawn by MnIII -O present in hi-Mn3 O4 . The CoO/hi-Mn3 O4 demonstrates an excellent catalytic performance over the conventional metal oxide-based electrocatalysts, which is reflected by 1.2 times higher oxygen evolution reaction (OER) activity than that of Ru/C and a comparable oxygen reduction reaction (ORR) activity to that of Pt/C as well as a better stability than that of Ru/C (95 % vs. 81 % retained OER activity) and Pt/C (92 % vs. 78 % retained ORR activity after 10 h running) in alkaline electrolyte.

Entities: Chemical Disease

Keywords: electrocatalysts; electrode materials; high-energy interfaces; nanocatalysis; oxygen evolution

Year: 2017 PMID： 28338264 DOI： 10.1002/anie.201701531

Source DB: PubMed Journal: Angew Chem Int Ed Engl ISSN： 1433-7851 Impact factor: 15.336

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Cited

6 in total

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Authors: Congfang Chen; Aiping Wu; Haijing Yan; Yinglu Xiao; Chungui Tian; Honggang Fu
Journal: Chem Sci Date: 2018-04-23 Impact factor: 9.825

2. Missing-linker metal-organic frameworks for oxygen evolution reaction.

Authors: Ziqian Xue; Kang Liu; Qinglin Liu; Yinle Li; Manrong Li; Cheng-Yong Su; Naoki Ogiwara; Hirokazu Kobayashi; Hiroshi Kitagawa; Min Liu; Guangqin Li
Journal: Nat Commun Date: 2019-11-06 Impact factor: 14.919

3. Complex Impedance Analysis on Charge Accumulation Step of Mn₃O₄ Nanoparticles during Water Oxidation.

Authors: Hongmin Seo; Sunghak Park; Kang Hee Cho; Seungwoo Choi; Changwan Ko; Hyacinthe Randriamahazaka; Ki Tae Nam
Journal: ACS Omega Date: 2021-07-06

Review 4. Advanced Architectures and Relatives of Air Electrodes in Zn-Air Batteries.

Authors: Jing Pan; Yang Yang Xu; Huan Yang; Zehua Dong; Hongfang Liu; Bao Yu Xia
Journal: Adv Sci (Weinh) Date: 2018-01-22 Impact factor: 16.806

5. Template-free Synthesis of Stable Cobalt Manganese Spinel Hollow Nanostructured Catalysts for Highly Water-Resistant CO Oxidation.

Authors: Zehai Xu; Yufan Zhang; Xiong Li; Lei Qin; Qin Meng; Guoliang Zhang; Zheng Fan; Zhen Xue; Xinwen Guo; Qinglin Liu; Qingbiao Li; Baohua Mao; Zhi Liu
Journal: iScience Date: 2019-10-09

6. Interface Engineering of CoS/CoO@N-Doped Graphene Nanocomposite for High-Performance Rechargeable Zn-Air Batteries.

Authors: Yuhui Tian; Li Xu; Meng Li; Ding Yuan; Xianhu Liu; Junchao Qian; Yuhai Dou; Jingxia Qiu; Shanqing Zhang
Journal: Nanomicro Lett Date: 2020-10-27