首页|Immobilizing Triphenylamine with Photoredox Inert Sr2+Forming Sr-MOF with Controlled Electron Migration for Photocatalytic Oxidation of Thiols to Disulfides
Immobilizing Triphenylamine with Photoredox Inert Sr2+Forming Sr-MOF with Controlled Electron Migration for Photocatalytic Oxidation of Thiols to Disulfides
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The photocatalytic oxidative coupling of thiols is one of the most popular methods to synthesize the disulfides.Triphenylamine and its derivatives(TPAs)are promising for the above reaction,but suffer from the easy polymerization and difficult separation.To overcome these obstacles while controlling the photogenerated electrons transfer directly to target substrates,herein,we constructed one TPA-based metal-organic framework(MOF),(Me2NH2)[Sr(TCBPA)]·DMA·3H2O(1),by direct self-assembly of tris(4'-carboxybiphe-nyl)amine(H3TCBPA)and photoredox inert strontium ion(Sr2+).DFT calculations revealed that the valence band maximum(VBM)and the conduction band minimum(CBM)are mainly located on TCBPA3-,successfully inhibiting the undesirable electron migration to metal nodes.Experimental results indicated that 1 displays superior performance than homogeneous H3TCBPA,which may result from the abundant π…π and C-H…π interactions between the well-arranged TCBPA3-and the build-in electric field between the anionic framework and the Me2NH2+.This work highlights that immobilizing TPAs into MOFs is one promising approach to designing hetero-geneous photocatalysts for the synthesis of disulfides by oxidative coupling of thiols.
Key Laboratory of Magnetic Molecules and Magnetic Information Materials(Ministry of Education),School of Chemistry and Materials Science,Shanxi Normal University,Taiyuan,Shanxi 030006,China
Key Laboratory of Interface Science and Engineering in Advanced Material(Ministry of Education),College of Chemistry,Taiyuan University of Technology,Taiyuan,Shanxi 030024,China
NSFCthe"1331"Project of Shanxi ProvinceShanxi Scholarship Council of China
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