Interlayer synergistic reaction of radical precursors for ultraefficient 1 O 2 generation via quinone-based covalent organic framework

IF 9.1 1区 综合性期刊 Q1 MULTIDISCIPLINARY SCIENCES
Yuan Tao, Yu Hou, Huangsheng Yang, Zeyu Gong, Jiaxing Yu, Huajie Zhong, Qi Fu, Junhui Wang, Fang Zhu, Gangfeng Ouyang
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引用次数: 0

Abstract

Singlet oxygen ( 1 O 2 ) is important in the environmental remediation field, however, its efficient production has been severely hindered by the ultrafast self-quenching of the as-generated radical precursors in the Fenton-like reactions. Herein, we elaborately designed lamellar anthraquinone-based covalent organic frameworks (DAQ-COF) with sequential localization of the active sites (C═O) at molecular levels for visible-light-assisted peroxymonosulfate (PMS) activation. Theoretical and experimental results revealed that the radical precursors (SO 5 ·− ) were formed in the nearby layers with the migration distance less than 0.34 nm, via PMS donating electrons to the photogenerated holes. This interlayer synergistic effect eventually led to ultraefficient 1 O 2 production (14.8 μM s −1 ), which is 12 times that of the highest reported catalyst. As an outcome, DAQ-COF enabled the complete degradation of bisphenol A in 5 min with PMS under natural sunlight irradiation. This interlayer synergistic concept represents an innovative and effective strategy to increase the utilization efficiency of ultrashort-lived radical precursors, providing inspirations for subtle structural construction of Fenton-like catalysts.
通过基于醌的共价有机框架进行自由基前体的层间协同反应以实现超高效 1 O 2 生成
单线态氧 ( 1 O 2 ) 在环境修复领域非常重要,然而,在类似芬顿的反应中,单线态氧的高效产生受到了所生成自由基前体超快自淬的严重阻碍。在此,我们精心设计了片状蒽醌基共价有机框架(DAQ-COF),并在分子水平上对活性位点(C═O)进行了顺序定位,用于可见光辅助的过一硫酸盐(PMS)活化。理论和实验结果表明,通过 PMS 为光生成的空穴提供电子,自由基前体(SO 5 -- )在附近层中形成,迁移距离小于 0.34 nm。这种层间协同效应最终导致了超高效的 1 O 2 生成(14.8 μM s -1 ),是已报道的最高催化剂的 12 倍。结果,在自然阳光照射下,DAQ-COF 与 PMS 可在 5 分钟内完全降解双酚 A。这种层间协同概念是提高超短命自由基前体利用效率的一种创新而有效的策略,为类似芬顿催化剂的微妙结构构造提供了灵感。
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来源期刊
CiteScore
19.00
自引率
0.90%
发文量
3575
审稿时长
2.5 months
期刊介绍: The Proceedings of the National Academy of Sciences (PNAS), a peer-reviewed journal of the National Academy of Sciences (NAS), serves as an authoritative source for high-impact, original research across the biological, physical, and social sciences. With a global scope, the journal welcomes submissions from researchers worldwide, making it an inclusive platform for advancing scientific knowledge.
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