Generation and Regeneration of the C(sp3)–F Bond and 1,4-NADH/NADPH via Newly Designed S-gC3N4@Fe2O3/LC Photocatalysts under Solar Light,Energy & Fuels

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Generation and Regeneration of the C(sp3)–F Bond and 1,4-NADH/NADPH via Newly Designed S-gC3N4@Fe2O3/LC Photocatalysts under Solar Light
Energy & Fuels ( IF 5.2 ) Pub Date : 2022-07-19 , DOI: 10.1021/acs.energyfuels.1c03697
Satyam Singh ₁ , Rajesh K. Yadav ₁ , Tae Wu Kim ₂ , Chandani Singh ₁ , Pooja Singh ₁ , Surabhi Chaubey ₁ , Atul. P. Singh ₃ , Jin-Ook Baeg ₄ , Sarvesh K. Gupta ₅ , Dhanesh Tiwary ₆

Affiliation

Due to the pharmaceutical, biological, physical, and chemical properties of fluorinated compounds and 1,4-NADH/NADPH, these species have attracted a lot of attention from researchers across the chemical society. Despite their crucial significance, present methods of regenerating cofactors (1,4-NADH/NADPH) as well as inserting fluorine into organic compounds suffer from ruthless drawbacks. Herein, we designed a highly efficient S-gC₃N₄@Fe₂O₃/LC photocatalyst, and its in situ generations were accomplished by calcinations of Fe₂O₃, melamine (M), thiophenol (T), and lignin carbon (LC). The Fe₂O₃ part performs similar to an additional light harvester, gifting utmost photo-generated electrons, whereas the carbon part bridges a “thoroughfare” to make easy electron transfer from Fe₂O₃ to S-gC₃N₄ (Schemes 1 and 2). Therefore, the newly designed S-gC₃N₄@Fe₂O₃/LC photocatalyst is more efficient for the generation and regeneration of the C(sp³)–F bond and 1,4-NADH/NADPH due to its surface active sites and defects.

中文翻译：

太阳光下新设计的 S-gC3N4@Fe2O3/LC 光催化剂产生和再生 C(sp3)-F 键和 1,4-NADH/NADPH

由于含氟化合物和1,4-NADH/NADPH的药学、生物学、物理和化学性质，这些物种引起了化学界研究人员的广泛关注。尽管它们具有至关重要的意义，但目前再生辅因子 (1,4-NADH/NADPH) 以及将氟插入有机化合物中的方法仍存在无情的缺点。在此，我们设计了一种高效的 S-gC ₃ N ₄ @Fe ₂ O ₃ /LC 光催化剂，其原位生成是通过 Fe ₂ O ₃、三聚氰胺 (M)、苯硫酚 (T) 和木质素碳的煅烧完成的。 (LC)。Fe ₂ O ₃部分的性能类似于额外的光收集器，提供最大的光生电子，而碳部分桥接“通道”，使电子从 Fe ₂ O ₃轻松转移到 S-gC ₃ N ₄（方案 1 和 2）。因此，新设计的 S-gC ₃ N ₄ @Fe ₂ O ₃ /LC 光催化剂由于其表面活性而更有效地生成和再生 C(sp ³ )-F 键和 1,4-NADH/NADPH网站和缺陷。

更新日期：2022-07-19

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