Support induced phase engineering toward superior electrocatalyst

作     者：Beibei Sheng Dengfeng Cao Hongwei Shou Oyawale Adetunji Moses Wenjie Xu Yujian Xia Yuzhu Zhou Huijuan Wang Ping Wan Shuang Zhu Wangsheng Chu Xiaojun Wu Shuangming Chen Li Song Beibei Sheng;Dengfeng Cao;Hongwei Shou;Oyawale Adetunji Moses;Wenjie Xu;Yujian Xia;Yuzhu Zhou;Huijuan Wang;Ping Wan;Shuang Zhu;Wangsheng Chu;Xiaojun Wu;Shuangming Chen;Li Song

作者机构：National Synchrotron Radiation LaboratoryCAS Center for Excellence in NanoscienceUniversity of Science and Technology of ChinaHefei 230026China Hefei National Laboratory for Physical Sciences at the MicroscalesDepartment of Materials Sciences and EngineeringUniversity of Science and Technology of ChinaHefei 230026China Experimental Center of Engineering and Material ScienceUniversity of Science and Technology of ChinaHefei 230026China Materials Interfaces CenterShenzhen Institutes of Advanced TechnologyChinese Academy of SciencesShenzhen 440305China Institute of EnergyHefei Comprehensive Nation Science CenterHefei 230031China 

出 版 物：《Nano Research》 (纳米研究（英文版）)

年 卷 期：2022年第15卷第3期

页      面：1831-1837页

核心收录：

学科分类：0808[工学-电气工程] 07[理学] 0809[工学-电子科学与技术（可授工学、理学学位）] 070304[理学-物理化学(含∶化学物理)] 0805[工学-材料科学与工程（可授工学、理学学位）] 0703[理学-化学] 0702[理学-物理学] 

基　　金：the National Key R&D Program of China(Nos.2020YFA0405800 and 2017YFA0303500) the National Natural Science Foundation of China(NSFC)(Nos.U1932201,U2032113,and 22075264) CAS Collaborative Innovation Program of Hefei Science Center(Nos.2019HSC-CIP002 and 2020HSC-CIP002) USTC Research Funds of the Double First-Class Initiative(No.YD2310002003) Institute of Energy,Hefei Comprehensive Nation Science Center,University Synergy Innovation Program of Anhui Province(GXXT-2020-002) CAS Iterdisciplinary Innovation Team.L.S.acknowledges the support from Key Laboratory of Advanced Energy Materials Chemistry(Ministry of Education),Nankai University(111 project,B12015)。 

主　　题：phase engineering support synchrotron radiation characterization oxygen evolution reaction(OER) urea oxidation reaction(UOR) 

摘      要：The phase transformation of catalysts has been extensively observed in heterogeneous catalytic reactions that hinder the long cycling catalysis,and it remains a big challenge to precisely control the active phase during the complex conditions in electrochemical catalysis.Here,we theoretically predict that carbon-based support could achieve the phase engineering regulation of catalysts by suppressing specific phase transformation.Taken single-walled carbon nanotube(SWCNT)as typical support,combined with calculated E-pH(Pourbaix)diagram and advanced synchrotron-based characterizations technologies prove there are two different active phases source from cobalt selenide which demonstrate that the feasibility of using support effect regulating the potential advantageous catalysts.Moreover,it is worth noting that the phase engineering derived Co_(3)O_(4)-SWCNT exhibits a low overpotential of 201 mV for delivering the current density of 10 mA/cm^(2)in electrocatalytic oxygen evolution reaction(OER).Also,it reaches a record current density of 529 mA/cm^(2)at 1.63 V(vs.RHE)in the electrocatalytic urea oxidation reaction(UOR),overwhelming most previously reported catalysts.