蒲公英样p掺杂Fe-Co-Se在碳布上生长增强电催化析氧

IF 2.7 4区 化学 Q3 CHEMISTRY, PHYSICAL Electrocatalysis Pub Date : 2023-07-04 DOI:10.1007/s12678-023-00835-w
Yingping Zheng, Dehua Yu, Ke Zhang, Wei Xu, Kaili Ma, Yuhang Wang, Yongbing Lou
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引用次数: 0

摘要

析氧反应(OER)作为典型的阳极反应,常与析氢、二氧化碳还原等阴极反应相结合。双金属硒化物可以满足OER的效率和经济性要求。然而,Fe-Co-Se的OER性能并不理想,这主要受限于其固有活性位点的限制。因此,通过在Fe-Co-Se中掺杂P,成功地调节了电子密度和传质。与Fe-Co-Se/CC和RuO2相比,Fe-Co-Se- p /CC的η值为210 mV, Tafel斜率为45.3 mV。实验研究表明,优异的OER活性归因于P掺杂剂在电子环境和形态上的双重调制作用,不仅可以提高电导率,还可以丰富催化活性位点。这项工作为过渡金属OER催化剂的设计提供了另一种选择,并推动了电催化制氧向更高效率和更低成本的方向发展。摘要首次合成了锚定在碳布上的三维蒲公英状Fe-Co-Se-P结构,作为经济高效的OER电催化剂,其具有优异的催化性能(在η10处具有210 mV的低过电位)和稳定性,这得益于P掺杂对电子环境和形貌的双重调制作用。
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Dandelion-like P-Doped Fe-Co-Se Grown on Carbon Cloths for Enhanced Electrocatalytic Oxygen Evolution

As a representative anodic reaction, the oxygen evolution reaction (OER) is often combined with hydrogen evolution, carbon dioxide reduction, and other cathodic reactions. Bimetallic selenides can satisfy the requirement of efficiency and economy for OER. However, the OER performance of Fe-Co-Se is less than satisfactory, restricted by the limited inherent active sites. Therefore, by doping P into Fe-Co-Se, the electron density and mass transfer were successfully adjusted. The 3D dandelion-like flower Fe-Co-Se-P/CC showed η10 of 210 mV and the 45.3 mV dec−1 Tafel slope better than Fe-Co-Se/CC and RuO2. Experimental investigations demonstrated that outstanding OER activity was ascribed to the double modulation influences of P dopant both in electron environment and morphology which could not only improve conductivity but also enrich catalytic reactive sites. This work presents another choice for the design of a transition metal OER catalyzer and propels the development of electrocatalytic oxygen production to higher efficiency and lower cost.

Graphical Abstract

3D dandelion-like flowers Fe-Co-Se-P structure anchored on carbon cloth has been firstly synthesized as economy and efficient OER electrocatalyst, which displays outstanding catalytic perform ance (equipped with 210 mV low overpotential at η10) and stability benefited from the double modulation effect of P doping on the electronic environment and morphology.

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来源期刊
Electrocatalysis
Electrocatalysis CHEMISTRY, PHYSICAL-ELECTROCHEMISTRY
CiteScore
4.80
自引率
6.50%
发文量
93
审稿时长
>12 weeks
期刊介绍: Electrocatalysis is cross-disciplinary in nature, and attracts the interest of chemists, physicists, biochemists, surface and materials scientists, and engineers. Electrocatalysis provides the unique international forum solely dedicated to the exchange of novel ideas in electrocatalysis for academic, government, and industrial researchers. Quick publication of new results, concepts, and inventions made involving Electrocatalysis stimulates scientific discoveries and breakthroughs, promotes the scientific and engineering concepts that are critical to the development of novel electrochemical technologies. Electrocatalysis publishes original submissions in the form of letters, research papers, review articles, book reviews, and educational papers. Letters are preliminary reports that communicate new and important findings. Regular research papers are complete reports of new results, and their analysis and discussion. Review articles critically and constructively examine development in areas of electrocatalysis that are of broad interest and importance. Educational papers discuss important concepts whose understanding is vital to advances in theoretical and experimental aspects of electrochemical reactions.
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