Efficient Solvothermal Synthesis of Defect-Rich Cu-BTC•MOF with Enhanced Electrocatalytic Activity in Alkaline Hydrogen Evolution Reaction  

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作  者:Maria Timofeeva Dmitry S.Dmitriev Danil D.Maltsev Artem A.Lobinsky Valentina V.Ivashchenko Svyatoslav A.Povarov Daria V.Dogadina Alexander S.Timin Valentin A.Milichko Vadim I.Popkov Sergei A.Shipilovskikh 

机构地区:[1]ITMO University,St.Petersburg,Russia 191002 [2]Ioff e Institute,St.Petersburg,Russia 194021 [3]Peter the Great St.Petersburg Polytechnic University,St.Petersburg,Russia 195251 [4]Institut Jean Lamour,Universit´E de Lorraine,54000 Nancy,France

出  处:《Transactions of Tianjin University》2024年第6期508-517,共10页天津大学学报(英文版)

基  金:This work was supported by Russian Science Foundation(22-73-10069“Design and application of fl exible Metal organic frameworks for photonics devices,”the chemical part and structural analysis of developed MOFs);The of stability MOFs was conducted under the fi nancial support of the Ministry of Science and Higher Education of the Russian Federation as part of the World-Class Research Center program:Advanced Digital Technologies(contract No.075-15-2022-311 dated 20.04.2022);The authors thank the Engineering Centre of Saint Petersburg State Institute of Technology for PXRD analysis.

摘  要:Porous metal–organic frameworks(MOFs) have been recently discovered to be efficient catalysts for energy applications and green technologies. Here, we report on a scalable catalytic platform using Cu–based MOFs for electrocatalytic alkaline hydrogen evolution reaction. First, the solvothermal synthesis of Cu–BTC MOFs(BTC = 1,3,5–benzenetricarboxylate) at 85 ℃ and a 1:60 ligand–to–solvent ratio allowed for minimizing the chemical consumption. Second, the obtained platform demonstrated enhanced electrochemical performance compared with commercially available Cu–based MOFs, with a potential of –230 versus –232 eV, logarithm of the current density of –3.6 versus –4.2 cm2, and electrochemical surface area of 75 versus 25 cm2per cm2of geometric area, respectively. Morphological and Raman analyses also revealed that the high concentration of defects in the obtained submicron Cu–BTC MOFs can contribute to their improved catalytic performance. Thus, our findings pave the way to the low–cost synthesis of energy–efficient MOF–based catalysts for hydrogen production.

关 键 词:ELECTROCATALYSIS Metal-organic frameworks Hydrogen evolution reaction COPPER-BASED Solvothermal synthesis 

分 类 号:TQ116.2[化学工程—无机化工] O643.36[理学—物理化学]

 

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