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Mechanistic Investigation into Single-Electron Oxidative Addition of Single-Atom Cu(I)-N<sub>4</sub> Site: Revealing the Cu(I)–Cu(II)–Cu(I) Catalytic Cycle in Photochemical Hydrophosphinylation

Guanglin Wang, Yichang Liu, Xiangyu Zhang, Xupeng Zong, Xu Zhang, Kun Zheng, Dan Qu, Li An, Xiaotian Qi, Zaicheng Sun

2024Journal of the American Chemical Society41 citationsDOI

Abstract

Understanding the valency and structural variations of metal centers during reactions is important for mechanistic studies of single-atom catalysis, which could be beneficial for optimizing reactions and designing new protocols. Herein, we precisely developed a single-atom Cu(I)-N 4 site catalyst via a photoinduced ligand exchange (PILE) strategy. The low-valent and electron-rich copper species could catalyze hydrophosphinylation via a novel single-electron oxidative addition (OA) pathway under light irradiation, which could considerably decrease the energy barrier compared with the well-known hydrogen atom transfer (HAT) and single electron transfer (SET) processes. The Cu(I)–Cu(II)–Cu(I) catalytic cycle, via single-electron oxidative addition and photoreduction, has been proven by multiple in situ or operando techniques. This catalytic system demonstrates high efficiency and requires room temperature conditions and no additives, which improves the turnover frequency (TOF) to 1507 h –1 . In particular, this unique mechanism has broken through the substrate limitation and shows a broad scope for different electronic effects of alkenes and alkynes.

Topics & Concepts

ChemistryCatalysisCatalytic cycleCopperAtom (system on chip)PhotochemistryElectronOxidative phosphorylationInorganic chemistryComputational chemistryOrganic chemistryBiochemistryQuantum mechanicsComputer scienceEmbedded systemPhysicsAdvanced Photocatalysis TechniquesSulfur-Based Synthesis TechniquesElectrocatalysts for Energy Conversion
Mechanistic Investigation into Single-Electron Oxidative Addition of Single-Atom Cu(I)-N<sub>4</sub> Site: Revealing the Cu(I)–Cu(II)–Cu(I) Catalytic Cycle in Photochemical Hydrophosphinylation | Litcius