Solar light-mediated graphene surface functionalization through diazo-chemistry route for regioselective Sp3C–H bond activation and 1,4-NADH regeneration for enhanced catalytic efficiency
- Authors
- Jaiswal, Surendra Kumar; Yadav, Rajesh Kumar; Mishra, Dinesh Kumar; Mishra, Shaifali; Shahin, Rehana; Sharma, Kanchan; Dubey, Arun Kumar; Gupta, Navneet Kumar; Dwivedi, D. K.; Baeg, Jin Ook
- Issue Date
- Nov-2025
- Publisher
- SPRINGER INTERNATIONAL PUBLISHING AG
- Keywords
- Graphene; Graphene-2,4,6-Tribromoaniline photocatalyst; 1,4-NADH regeneration; Sp(3) C-H bonds formation; Solar energy
- Citation
- Chemical Papers, v.79, no.11, pp 7787 - 7798
- Pages
- 12
- Indexed
- SCIE
SCOPUS
- Journal Title
- Chemical Papers
- Volume
- 79
- Number
- 11
- Start Page
- 7787
- End Page
- 7798
- URI
- https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/209358
- DOI
- 10.1007/s11696-025-04287-y
- ISSN
- 2585-7290
1336-9075
- Abstract
- By employing graphene-2,4,6-tribromoaniline for the regioselective activation of sp3 C–H bonds, the study explores a new catalytic mechanism that facilitates the fixation of NAD+ to 1,4-NADH in aqueous media under solar light circumstances. The technique provides a sustainable mechanism for organic transformations by demonstrating the effective manipulation of C–H bonds. In this photoinduced reaction, graphene combined with tribromoaniline acts as a strong catalyst, guaranteeing great selectivity and few byproducts. Biochemical activities depend on the activation of NAD+ to 1,4-NADH, and this photocatalytic method offers a more environmentally friendly option than conventional techniques. The promise for creating sustainable, environmentally friendly solutions for intricate organic reactionsespecially in bioorganic chemistry, with uses in energy storage and enzymatic processes, is demonstrated by the combination of solar energy and sophisticated catalysis. This discovery presents intriguing opportunities for further study in biocatalysis and green chemistry.
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