Interfacial Charge Modulation: An Efficient Strategy for Boosting Spatial Charge Separation on Semiconductor Photocatalysts

Tao Xiaoping; Gao Yuying; Wang Shengyang; Wang Xiaoyu; Liu Yang; Zhao Yue; Fan Fengtao; Dupuis Michel; Li Rengui; Li Can

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Interfacial Charge Modulation: An Efficient Strategy for Boosting Spatial Charge Separation on Semiconductor Photocatalysts

机译：界面电荷调制：提高半导体光催化剂的空间电荷分离的有效策略

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Surface modulation via injection or extraction of charge carriers in microelectric devices has been used to tune the energy band alignment for desired electrical and optical properties, yet not well recognized in photocatalysis field. Here, taking semiconductor bismuth tantalum oxyhalides (Bi4TaO8X) as examples, chemically inactive molybdenum oxide (MoO3) with a large work function is introduced to qualitatively tune the properties of interfacial charges, achieving an evidently enhanced upward band bending and intensive built-in electric field. Such a simple charge modulation exhibits a remarkable improvement in photocatalytic water oxidation, reaching an apparent quantum efficiency of 25% at the input wavelength of 420 nm. The validity and generality of surface charge modulating strategy are further demonstrated using other semiconductors (e.g., C3N4) and decorators (e.g., V2O5). The findings not only provide a promising strategy for rationally manipulating the interfacial built-in electric field in photocatalysis but also pave the way to learn from microelectronic technologies to construct artificial photosynthesis systems for solar energy conversion.

机译：通过注射或提取微电器装置的电荷载波的表面调制已经用于调谐所需电气和光学性质的能带对准，但在光催化区域中尚未识别。这里，服用半导体铋氧化物（Bi4TaO8x）作为实施例，引入具有大作业功能的化学惰性钼氧化物（MOO3）以定性调节界面电荷的性质，实现显着增强的向上带弯曲和密集型内置电场。这种简单的电荷调制表现出光催化水氧化的显着改善，在420nm的输入波长下达到25％的表观量子效率。使用其他半导体（例如，C3N4）和装饰器（例如，V2O5）进一步证明了表面电荷调节策略的有效性和一般性。该调查结果不仅提供了理性操纵光催常分析中的界面内置电场的有希望的策略，而且还铺设了从微电子技术中学习的方法，以构建用于太阳能转换的人造光合系统。

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来源
《Advanced energy materials 》 |2019年第13期| 1803951.1-1803951.7| 共7页
作者
Tao Xiaoping; Gao Yuying; Wang Shengyang; Wang Xiaoyu; Liu Yang; Zhao Yue; Fan Fengtao; Dupuis Michel; Li Rengui; Li Can;
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作者单位

Univ Sci & Technol China Dept Chem Phys Hefei 230026 Anhui Peoples R China|Chinese Acad Sci Dalian Natl Lab Clean Energy State Key Lab Catalysis Dalian Inst Chem Phys Zhongshan Rd 457 Dalian 116023 Peoples R China;

Chinese Acad Sci Dalian Natl Lab Clean Energy State Key Lab Catalysis Dalian Inst Chem Phys Zhongshan Rd 457 Dalian 116023 Peoples R China|Univ Chinese Acad Sci 19 A Yuquan Rd Beijing 100049 Peoples R China;

Chinese Acad Sci Dalian Natl Lab Clean Energy State Key Lab Catalysis Dalian Inst Chem Phys Zhongshan Rd 457 Dalian 116023 Peoples R China|Univ Chinese Acad Sci 19 A Yuquan Rd Beijing 100049 Peoples R China;

SUNY Buffalo Dept Chem & Biol Engn Buffalo NY 14260 USA;

Chinese Acad Sci Dalian Natl Lab Clean Energy State Key Lab Catalysis Dalian Inst Chem Phys Zhongshan Rd 457 Dalian 116023 Peoples R China|Univ Chinese Acad Sci 19 A Yuquan Rd Beijing 100049 Peoples R China;

Chinese Acad Sci Dalian Natl Lab Clean Energy State Key Lab Catalysis Dalian Inst Chem Phys Zhongshan Rd 457 Dalian 116023 Peoples R China|Univ Chinese Acad Sci 19 A Yuquan Rd Beijing 100049 Peoples R China;

Chinese Acad Sci Dalian Natl Lab Clean Energy State Key Lab Catalysis Dalian Inst Chem Phys Zhongshan Rd 457 Dalian 116023 Peoples R China;

Chinese Acad Sci Dalian Natl Lab Clean Energy State Key Lab Catalysis Dalian Inst Chem Phys Zhongshan Rd 457 Dalian 116023 Peoples R China|SUNY Buffalo Dept Chem & Biol Engn Buffalo NY 14260 USA;

Chinese Acad Sci Dalian Natl Lab Clean Energy State Key Lab Catalysis Dalian Inst Chem Phys Zhongshan Rd 457 Dalian 116023 Peoples R China;

Univ Sci & Technol China Dept Chem Phys Hefei 230026 Anhui Peoples R China|Chinese Acad Sci Dalian Natl Lab Clean Energy State Key Lab Catalysis Dalian Inst Chem Phys Zhongshan Rd 457 Dalian 116023 Peoples R China;

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原文格式 PDF
正文语种 eng
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关键词
charge modulation; charge separation; interface engineering; photocatalysis;

机译：电荷调制;电荷分离;界面工程;光催化;

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专利

1. Interfacial Charge Modulation: An Efficient Strategy for Boosting Spatial Charge Separation on Semiconductor Photocatalysts [J] . Tao Xiaoping, Gao Yuying, Wang Shengyang, Advanced energy materials . 2019 ,第13期

机译：界面电荷调制：提高半导体光催化剂上空间电荷分离的有效策略
2. Boosting interfacial charge separation of Ba5Nb4O15/g-C3N4 photocatalysts by 2D/2D nanojunction towards efficient visible-light driven H-2 generation [J] . Wang Kai, Li Yuan, Li Jun, Applied Catalysis, B. Environmental: An International Journal Devoted to Catalytic Science and Its Applications . 2020 ,第1期

机译：通过2D / 2D纳入朝向高效可见光驱动的H-2发电的Ba5NB4O15 / G-C3N4光催化剂的界面电荷分离。
3. Encapsulating a Co(II) Molecular Photocatalyst in Metal-Organic Framework for Visible-Light-Driven H-2 Production: Boosting Catalytic Efficiency via Spatial Charge Separation [J] . Li Zhe, Xiao Juan-Ding, Jiang Hai-Long ACS catalysis . 2016 ,第8期

机译：在可见光驱动H-2生产的金属有机框架中封装Co（II）分子光催化剂：通过空间电荷分离提高催化效率
4. EXCITON DIFFUSION AND INTERFACIAL CHARGE SEPARATION IN SEMICONDUCTOR/ANTENNA BILAYERS STUDIED BY FP-TRMC [C] . Jessica E. Kroeze, Tom J. Savenije, John M. Warrnan Electrochemical Society . 2005

机译：通过FP-TRMC研究的半导体/天线双层中的激子扩散和界面电荷分离
5. The trapped charge interfacial modulation of the electron beam induced current in metal oxide semiconductor capacitors. [D] . Deptuch, Roland George. 1988

机译：金属氧化物半导体电容器中电子束感应电流的俘获电荷界面调制。
6. Alkene‐Linked Covalent Organic Frameworks Boosting Photocatalytic Hydrogen Evolution by Efficient Charge Separation and Transfer in the Presence of Sacrificial Electron Donors [O] . Chunshao Mo, Meijia Yang, Fusai Sun, 2020

机译：烯烃连接的共价有机框架通过在牺牲电子给体存在下的有效电荷分离和转移促进光催化氢的释放
7. Boosting light harvesting and charge separation of WO3via coupling with Cu2O/CuO towards highly efficient tandem photoanodes [O] . Mahmoud A. Khalifa, Luying Shen, Jianming Zheng, 2021

机译：促进与CU2O / CUO朝向高效串联光电桥的WO3VIA耦合的光收集和电荷分离

Interfacial Charge Modulation: An Efficient Strategy for Boosting Spatial Charge Separation on Semiconductor Photocatalysts

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