含嘧啶的共价有机框架通过一步双电子氧还原过程实现过氧化氢的高效光合作用

IF 9.5 2区材料科学 Q1 CHEMISTRY, PHYSICAL Nano Research Pub Date : 2024-08-17 DOI:10.1007/s12274-024-6897-6

Hongyu Chen, Hao Zhang, Kai Chi, Yan Zhao

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引用次数: 0

摘要

光催化氧还原反应（ORR），尤其是一步法双电子（2e-）途径，是一种极具前景的高效和选择性过氧化氢（H2O2）合成策略。然而，构建高效光催化剂以实现一步法 2e- ORR 过程仍然是一项重大挑战。在此，我们通过在苯并三噻吩基共价有机框架（BTT-MD-COF）中加入嘧啶单元，开发了一种高效光催化剂，使其能够与氧气和水通过一步式 2e- ORR 途径进行 H2O2 的光合作用。在可见光照射下，BTT-MD-COF 的 H2O2 生成率高达 5691.2 µmol-h-1-g-1。进一步的实验结果和理论研究表明，嘧啶单元的引入加速了光诱导电子-空穴对的分离，促进了耶格尔型 O2 吸附，从而将两步 2e ORR 过程改变为直接的一步 2e 过程。这项工作为创造无金属催化剂以实现 H2O2 的高效光合作用提供了一条新途径。

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Pyrimidine-containing covalent organic frameworks for efficient photosynthesis of hydrogen peroxide via one-step two electron oxygen reduction process

The photocatalytic oxygen reduction reaction (ORR), particularly the one-step two-electron (2e⁻) pathway, is a highly promising strategy for efficient and selective hydrogen peroxide (H₂O₂) synthesis. However, constructing efficient photocatalysts to achieve a one-step 2e⁻ ORR process remains a significant challenge. Herein, we developed an efficient photocatalyst by incorporating pyrimidine units into benzotrithiophene-based covalent organic framework (BTT-MD-COF), enabling the photosynthesis of H₂O₂ via the one-step 2e⁻ ORR pathway with O₂ and water. Under visible-light irradiation, BTT-MD-COF exhibited a high H₂O₂ production rate of up to 5691.2 µmol·h⁻¹·g⁻¹. Further experimental results and theoretical studies revealed that the introduction of pyrimidine units accelerates the separation of photoinduced electron–hole pairs and promotes Yeager-type O₂ adsorption, which alters the two-step 2e⁻ ORR process to the direct one-step 2e⁻ process. This work offers a new avenue to create metal-free catalysts for efficient photosynthesis of H₂O₂.

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来源期刊

Nano Research 化学-材料科学：综合

CiteScore

14.30

自引率

11.10%

发文量

2574

审稿时长

1.7 months

期刊介绍： Nano Research is a peer-reviewed, international and interdisciplinary research journal that focuses on all aspects of nanoscience and nanotechnology. It solicits submissions in various topical areas, from basic aspects of nanoscale materials to practical applications. The journal publishes articles on synthesis, characterization, and manipulation of nanomaterials; nanoscale physics, electrical transport, and quantum physics; scanning probe microscopy and spectroscopy; nanofluidics; nanosensors; nanoelectronics and molecular electronics; nano-optics, nano-optoelectronics, and nano-photonics; nanomagnetics; nanobiotechnology and nanomedicine; and nanoscale modeling and simulations. Nano Research offers readers a combination of authoritative and comprehensive Reviews, original cutting-edge research in Communication and Full Paper formats. The journal also prioritizes rapid review to ensure prompt publication.