rGO修饰的（B，N）共掺杂WO 与CdSe量子点耦合用于单光子Z型体系的优异光催化活性：一项联合实验和密度泛函理论研究

Exceptional Photocatalytic Activities of rGO Modified (B,N) Co-Doped WO , Coupled with CdSe QDs for One Photon Z-Scheme System: A Joint Experimental and DFT Study.

作者信息

Raziq Fazal, Aligayev Amil, Shen Huahai, Ali Sharafat, Shah Rahim, Ali Sajjad, Bakhtiar Syedul H, Ali Asad, Zarshad Naghat, Zada Amir, Xia Xiang, Zu Xiaotao, Khan Muslim, Wu Xiaoqiang, Kong Qingquan, Liu Chunming, Qiao Liang

机构信息

Yangtze Delta Region Institute (Huzhou), University of Electronic Science and Technology of China, Huzhou, 313001, P. R. China.

School of Physics, University of Electronic Science and Technology of China, Chengdu, 610054, P. R. China.

出版信息

Adv Sci (Weinh). 2022 Jan;9(2):e2102530. doi: 10.1002/advs.202102530. Epub 2021 Dec 3.

DOI:10.1002/advs.202102530

PMID:34859614

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8805570/

Abstract

Artificial Z-scheme, a tandem structure with two-step excitation process, has gained significant attention in energy production and environmental remediation. By effectively connecting and matching the band-gaps of two different photosystems, it is significant to utilize more photons for excellent photoactivity. Herein, a novel one-photon (same energy-two-photon) Z-scheme system is constructed between rGO modified boron-nitrogen co-doped-WO , and coupled CdSe quantum dots-(QDs). The coctalyst-0.5%Rh Cr O (0.5RCr) modified amount-optimized sample 6%CdSe/1%rGO3%BN-WO revealed an unprecedented visible-light driven overall-water-splitting to produce ≈51 µmol h g H and 25.5 µmol h g O , and it remained unchanged for 5 runs in 30 h. This superior performance is ascribed to the one-photon Z-scheme, which simultaneously stimulates a two photocatalysts system, and enhanced charge separation as revealed by various spectroscopy techniques. The density-functional theory is further utilized to understand the origin of this performance enhancement. This work provides a feasible strategy for constructing an efficient one-photon Z-scheme for practical applications.

摘要

人工Z型结构是一种具有两步激发过程的串联结构，在能源生产和环境修复方面受到了广泛关注。通过有效地连接和匹配两种不同光系统的带隙，利用更多光子以实现优异的光活性具有重要意义。在此，在还原氧化石墨烯修饰的硼氮共掺杂氧化钨与耦合的硒化镉量子点之间构建了一种新型的单光子（相同能量-双光子）Z型体系。共催化剂0.5%铑修饰的氧化铬（0.5RCr）修饰量优化后的样品6%CdSe/1%rGO3%BN-WO表现出前所未有的可见光驱动全水分解，产生约51 μmol h g H₂和25.5 μmol h g O₂，并且在30小时内进行5次循环后性能保持不变。这种优异的性能归因于单光子Z型结构，它同时激发了双光催化剂体系，并如各种光谱技术所揭示的那样增强了电荷分离。进一步利用密度泛函理论来理解这种性能增强的起源。这项工作为构建用于实际应用的高效单光子Z型结构提供了一种可行的策略。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2d49/8805570/a3f19de68dad/ADVS-9-2102530-g005.jpg

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rGO修饰的（B，N）共掺杂WO 与CdSe量子点耦合用于单光子Z型体系的优异光催化活性：一项联合实验和密度泛函理论研究

Exceptional Photocatalytic Activities of rGO Modified (B,N) Co-Doped WO , Coupled with CdSe QDs for One Photon Z-Scheme System: A Joint Experimental and DFT Study.

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