Designing visible light photocatalysts with a metal oxide semiconductor as the starting material could expand a new horizon for the conversion and storage of solar energy.Here,the benchmark photocatalyst TiO2 was used to pursue this goal by anchoring aromatic acids.Extending the aromatic acid was strate-gically deployed to design TiO2 complexes with violet light-induced selective aerobic oxidation of sulfide as the probe reaction.With benzoic acid(BA)as the initial molecule,horizontally extending one or two benzene rings furnishes 2-naphthoic acid(2-NA)and 2-anthracene acid(2-AA).Moreover,triethylamine(TEA),an electron transfer mediator,was introduced to maintain the integrity of the anchored aromatic acids.Notably,there was a direct correlation between the π-conjugation of aromatic acid ligand and the selective aerobic oxidation of sulfides.Among the three aromatic acids,2-AA delivered the best re-sult over TiO2 due to the most extensive π-conjugated system.Ultimately,violet light-induced selective aerobic oxidation of sulfides into corresponding sulfoxides was conveniently realized by cooperative pho-tocatalysis of 2-AA-TiO2 with 10 mol％of TEA.This work affords an extending strategy for designing the next-generation ligands for semiconductors to expand visible light-induced selective reactions.

Hui Li;Xia Li;Jun Zhou;Wenlong Sheng;Xianjun Lang

Sauvage Center for Molecular Sciences,College of Chemistry and Molecular Sciences,Wuhan University,Wuhan 430072,China

中国化学快报（英文版）

[1]Hui Li;Xia Li;Jun Zhou;Wenlong Sheng;Xianjun Lang-.Extending aromatic acids on TiO2 for cooperative photocatalysis with triethylamine:Violet light-induced selective aerobic oxidation of sulfides)[J].中国化学快报（英文版）,2022(08):3733-3738

triethylamine,gically,furnishes,naphthoic,sulfoxides,tocatalysis

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