Carbon-to-nitrogen atom transmutations in a covalent organic framework transform the visible light-triggered selective oxidation of sulfides

Carbon-to-nitrogen atom transmutations in a covalent organic framework transform the visible light-triggered selective oxidation of sulfides

The construction of covalent organic frameworks (COFs) for visible light-triggered chemical transformations has recently received substantial attention. In this work, four carbon-to-nitrogen atom transmutations in an established COF, TpBD-COF lead to the design of TpBmd-COF, transforming the photoca...

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Veröffentlicht in:Journal of materials chemistry. A, Materials for energy and sustainability Materials for energy and sustainability, 2025
Hauptverfasser: Li, Zheng, Zhang, Fulin, Zhao, Hongxiang, Wang, Yuexin, Zhu, Shengquan, Lang, Xianjun
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container_title Journal of materials chemistry. A, Materials for energy and sustainability
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creator Li, Zheng
Zhang, Fulin
Zhao, Hongxiang
Wang, Yuexin
Zhu, Shengquan
Lang, Xianjun
description The construction of covalent organic frameworks (COFs) for visible light-triggered chemical transformations has recently received substantial attention. In this work, four carbon-to-nitrogen atom transmutations in an established COF, TpBD-COF lead to the design of TpBmd-COF, transforming the photocatalytic performance for an arduous reaction. The integrations of 2,4,6-triformylphloroglucinol (Tp) with [1,1'-biphenyl]-4,4'-diamine (BD) and [5,5'-bipyrimidine]-2,2'-diamine (Bmd) affords TpBD-COF and TpBmd-COF, respectively. Both COFs have similar crystallinity, specific surface areas, and porous structures. However, TpBmd-COF exhibits much better separation and transfer of photogenerated charge carriers than TpBD-COF. As such, for the blue light-triggered selective oxidation of organic sulfides with oxygen (O2), TpBD-COF is inactive, while TpBmd-COF delivers significant yields of organic sulfoxides. Overall, conducting atom transmutations in a COF is a viable strategy for transforming photocatalytic performance.
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In this work, four carbon-to-nitrogen atom transmutations in an established COF, TpBD-COF lead to the design of TpBmd-COF, transforming the photocatalytic performance for an arduous reaction. The integrations of 2,4,6-triformylphloroglucinol (Tp) with [1,1'-biphenyl]-4,4'-diamine (BD) and [5,5'-bipyrimidine]-2,2'-diamine (Bmd) affords TpBD-COF and TpBmd-COF, respectively. Both COFs have similar crystallinity, specific surface areas, and porous structures. However, TpBmd-COF exhibits much better separation and transfer of photogenerated charge carriers than TpBD-COF. As such, for the blue light-triggered selective oxidation of organic sulfides with oxygen (O2), TpBD-COF is inactive, while TpBmd-COF delivers significant yields of organic sulfoxides. 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title Carbon-to-nitrogen atom transmutations in a covalent organic framework transform the visible light-triggered selective oxidation of sulfides
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