Sunlight sparks spectacular C(sp3)─H bond arylation: Rod shape ACC@MeF composite shines bright in 2,4‐dinitrophenylhydrazine reaction

IF 1.3 Q3 CHEMISTRY, MULTIDISCIPLINARY
Mayank Tiwari, Rajesh K. Yadav, Satyam Singh, Pooja Singh, Rehana Shahin, Omvir Singh, N. K. Gupta, Suresh K. Pandey, D. Tiwary, Jin‐Ook Baeg
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引用次数: 0

Abstract

The solar light responsive selective C(sp3)─H bond activation by photocatalytic pathway using graphene platform as photocatalyst is a green and sustainable route to achieve value‐added chemicals on gram scale synthesis. Graphene has low activity due to fast recombination charges, band gap suitability problems, and inefficient solar light absorption ability. Therefore, activated carbon cloth‐based nitrogen‐rich phenolic resin was developed from melem and formaldehyde. The ACC@MeF light‐harvesting composite demonstrates outstanding light‐harvesting capability, leading to enhanced photocatalytic performance in C(sp3)─H bond formation, suitability of band gap, high molar extinction coefficient and high thermal stability. The development of metal‐free activated carbon cloth‐based melem formaldehyde resin for the solar light photocatalytic transformation of organic compounds is anticipated to have broad‐reaching applications.
阳光激发出壮观的 C(sp3)-H 键芳基化反应:棒状 ACC@MeF 复合材料在 2,4-二硝基苯肼反应中大放异彩
利用石墨烯平台作为光催化剂,通过光催化途径实现太阳光响应性选择性 C(sp3)-H 键活化,是在克级规模上合成高附加值化学品的一条绿色可持续途径。由于石墨烯存在快速重组电荷、带隙适宜性问题以及太阳光吸收能力低等问题,其活性较低。因此,研究人员利用石墨烯和甲醛开发了基于活性炭布的富氮酚醛树脂。ACC@MeF 光收集复合材料表现出卓越的光收集能力,在 C(sp3)-H 键形成、带隙适宜性、高摩尔消光系数和高热稳定性等方面的光催化性能得到增强。无金属活性炭布基 melem 甲醛树脂在太阳光光催化转化有机化合物方面的开发预计将具有广泛的应用前景。
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来源期刊
Vietnam Journal of Chemistry
Vietnam Journal of Chemistry CHEMISTRY, MULTIDISCIPLINARY-
CiteScore
1.70
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0.00%
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