An article Organic semiconductor photocatalyst can bifunctionalize arenes and heteroarenes WOS:000477703100036 published article about GRAPHITIC CARBON NITRIDE; C-H FUNCTIONALIZATION; CATALYZED ELECTROPHILIC AMINATION; PHOTOREDOX CATALYSIS; ARYL HALIDES; TRIFLUOROMETHYLATION; CYANATION; HYDROGEN; REDUCTION; LIGAND in [Ghosh, Indrajit; Khamrai, Jagadish; Shlapakov, Nikita; Koenig, Burkhard] Univ Regensburg, Fak Chem & Pharm, D-93040 Regensburg, Germany; [Ghosh, Indrajit; Savateev, Aleksandr; Antonietti, Markus] Max Planck Inst Colloids & Interfaces, Dept Colloid Chem, Res Campus Golm, D-14424 Potsdam, Germany in 2019, Cited 102. The Name is 1,3-Dimethoxybenzene. Through research, I have a further understanding and discovery of 151-10-0. Quality Control of 1,3-Dimethoxybenzene
Photoexcited electron-hole pairs on a semiconductor surface can engage in redox reactions with two different substrates. Similar to conventional electrosynthesis, the primary redox intermediates afford only separate oxidized and reduced products or, more rarely, combine to one addition product. Here, we report that a stable organic semiconductor material, mesoporous graphitic carbon nitride (mpg-CN), can act as a visible-light photoredox catalyst to orchestrate oxidative and reductive interfacial electron transfers to two different substrates in a two-or three-component system for direct twofold carbon-hydrogen functionalization of arenes and heteroarenes. The mpg-CN catalyst tolerates reactive radicals and strong nucleophiles, is straightforwardly recoverable by simple centrifugation of reaction mixtures, and is reusable for at least four catalytic transformations with conserved activity.
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Reference:
Isothiazole – Wikipedia,
,Isothiazole – ScienceDirect.com