Chromatic Fulleropyrrolidine as Long‐Lived Metal‐Free Catalyst for CO 2 Photoreduction Reaction

• Published in: ChemSusChem Vol. 15; no. 5; p. e202102476
• Main Authors: Wang, Shih‐Hao, Raja, Rathinam, Hsiow, Chuen‐Yo, Khurshid, Farheen, Yang, Hau‐Ren, Chung, Po‐Wen, Lai, Yu‐Ying, Jeng, Ru‐Jong, Wang, Leeyih
• Format: Journal Article
• Language: English
• Published: Germany 08.03.2022
• Subjects: organocatalysis; fullerenes; CO2 reduction; photocatalysis; photosynthesis
• ISSN: 1864-5631; 1864-564X
• DOI: 10.1002/cssc.202102476

Conversion of CO 2 into carbonaceous fuels with the aid of solar energy has been an important research subject for decades. Owing to their excellent electron‐accepting capacities, fullerene derivatives have been extensively used as n‐type semiconductors. This work reports that the fulleropyrrolidine functionalized with 4,7‐di(thiophen‐2‐yl)benzo[ c ][1,2,5]thiadiazole, abbreviated as DTBT‐C 60 , could efficiently catalyze the photoreduction of CO 2 to CO. The novel C 60 ‐chromophore dyad structure facilitated better usage of solar light and effective dissociation of excitons. Consequently, the DTBT‐C 60 exhibited a promising CO yield of 144 μmol g cat −1 under AM1.5G solar illumination for 24 h. Moreover, the isotope experiments demonstrated that water molecules could function as an electron source to reactivate DTBT‐C 60 . Impressively, DTBT‐C 60 exhibited an extremely durable catalytic activity for more than one week, facilitating the practical application of photochemical CO 2 reaction.