Lead-free perovskite Cs2AgBiBr6@g-C3N4 Z-scheme system for improving CH4 production in photocatalytic CO2 reduction

Wang Yingying; Huang Hanlin; Zhang Zhenzhen; Wang Cong; Yang Yuying; Li Qi; Xu Dongsheng

首页> 外文期刊>Applied Catalysis, B. Environmental: An International Journal Devoted to Catalytic Science and Its Applications >Lead-free perovskite Cs2AgBiBr6@g-C3N4 Z-scheme system for improving CH4 production in photocatalytic CO2 reduction

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Lead-free perovskite Cs2AgBiBr6@g-C3N4 Z-scheme system for improving CH4 production in photocatalytic CO2 reduction

机译：无铅钙钛矿CS2AGBIBR6 @ G-C3N4 Z-Scheme System，用于改善光催化二氧化碳减少的CH4生产

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Solar-energy-driven CO2 conversion into value-added chemical fuels holds great potential renewable energy generation. However, most of the photocatalysts facilitate a two-electron reduction process producing CO, hard for the eight-electron CH4 production pathways which can stockpile more solar energy for further utilization. Herein, we developed an in situ assembly strategy to fabricate the lead-free perovskite Cs2AgBiBr6@g-C3N4 Z-scheme system in toluene and the Cs2AgBiBr6@g-C3N4 type-II heterojunction structure in CH2Cl2. By combining the reducing ability of the conduction band of g-C3N4 and the oxidizing ability of the valence band of Cs2AgBiBr6 perovskite, this Z-scheme system exhibits superior CH4 production in photocatalytic CO2 reduction, in contrast to the high CO selectivity for the heterojunction photocatalysts, which is 10-fold and 16-fold higher than that of pure g-C3N4 and pure CABB, respectively. The stability (four consecutive photocatalytic cycles in solvent methanol as sacrificial reagent without obvious decrease of efficiency) and the mechanism (the prominent activity and the high CH4 production selectivity boosted by Z-scheme system) were demonstrated. In this work, the first report for constructing lead-free halide perovskite Z-scheme and type-II photocatalytic systems for the regulation products selectivity of CO2 reduction reaction provides a promising strategy for the fabrication other types of inorganic/organic heterojunction systems.

机译：太阳能驱动的二氧化碳转化为增值化学燃料具有巨大的可再生能源发电潜力。然而，大多数光催化剂有助于双电子还原过程产生CO，这对于八电子CH4生产途径来说很困难，因为这可以储存更多太阳能以供进一步利用。在此，我们开发了一种原位组装策略来制备无铅钙钛矿Cs2AgBiBr6@g-甲苯中的C3N4 Z-方案系统及其应用Cs2AgBiBr6@g-CH2Cl2中的C3N4 II型异质结结构。通过结合g-C3N4导带的还原能力和Cs2AgBiBr6钙钛矿价带的氧化能力，该Z-方案系统在光催化CO2还原中表现出优越的CH4生成，而异质结光催化剂的高CO选择性分别比纯g-C3N4和纯CABB高10倍和16倍。证明了其稳定性（以溶剂甲醇为牺牲剂连续四次光催化循环，效率没有明显降低）和机理（Z-scheme系统提高了突出的活性和高CH4生成选择性）。在这项工作中，首次报道了构建无铅卤化物钙钛矿Z-方案和II型光催化系统来调节CO2还原反应产物的选择性，为制备其他类型的无机/有机异质结系统提供了一种有希望的策略。

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来源
《Applied Catalysis, B. Environmental: An International Journal Devoted to Catalytic Science and Its Applications》 |2021年第1期|共7页
作者
Wang Yingying; Huang Hanlin; Zhang Zhenzhen; Wang Cong; Yang Yuying; Li Qi; Xu Dongsheng;
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作者单位

Peking Univ Coll Chem &

Mol Engn Beijing Natl Lab Mol Sci State Key Lab Struct Chem Unstable &

Stable Speci Beijing 100871 Peoples R China;

Peking Univ Coll Chem &

Mol Engn Beijing Natl Lab Mol Sci State Key Lab Struct Chem Unstable &

Stable Speci Beijing 100871 Peoples R China;

Peking Univ Coll Chem &

Mol Engn Beijing Natl Lab Mol Sci State Key Lab Struct Chem Unstable &

Stable Speci Beijing 100871 Peoples R China;

Peking Univ Coll Chem &

Mol Engn Beijing Natl Lab Mol Sci State Key Lab Struct Chem Unstable &

Stable Speci Beijing 100871 Peoples R China;

Peking Univ Coll Chem &

Mol Engn Beijing Natl Lab Mol Sci State Key Lab Struct Chem Unstable &

Stable Speci Beijing 100871 Peoples R China;

Peking Univ Coll Chem &

Mol Engn Beijing Natl Lab Mol Sci State Key Lab Struct Chem Unstable &

Stable Speci Beijing 100871 Peoples R China;

Peking Univ Coll Chem &

Mol Engn Beijing Natl Lab Mol Sci State Key Lab Struct Chem Unstable &

Stable Speci Beijing 100871 Peoples R China;

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原文格式 PDF
正文语种 eng
中图分类催化;
关键词
Halide perovskite material; Photocatalytic CO2 reduction; Z-scheme system; Type-II system; CH4 production;

机译：卤化物钙钛矿材料;光催化CO2还原;Z方案系统;II型系统;甲烷生产;

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1. Z-scheme heterojunction of SnS2-decorated 3DOM-SrTiO3 for selectively photocatalytic CO2 reduction into CH4 [J] . Wenjie He, Xingxing Wu, Yifei Li, 中国化学快报（英文版） . 2020,第010期
2. Enhanced CH4 selectivity in CO2 photocatalytic reduction over carbon quantum dots decorated and oxygen doping g-C3N4 [J] . Qian Li, Songcan Wang, Zhuxing Sun, 纳米研究：英文版 . 2019,第011期
3. Enhanced CH4 selectivity in CO2 photocatalytic reduction over carbon quantum dots decorated and oxygen doping g-C3N4 [J] . Qian Li, Songcan Wang, Zhuxing Sun, 纳米研究（英文版） . 2019,第011期
4. Hydriding Pd cocatalysts： An approach to giant enhancement on photocatalytic CO2 reduction into CH4 [J] . Yuzhen Zhu1, Chao Gao2, Song Bai1, 纳米研究：英文版 . 2017,第010期
5. Sustained, photocatalytic CO2 reduction to CH4 in a continuous flow reactor by earth-abundant materials: Reduced titania-Cu2O Z-scheme heterostructures [J] . Ali Shahzad, Lee Junho, Kim Hwapyong, Applied Catalysis, B. Environmental: An International Journal Devoted to Catalytic Science and Its Applications . 2020,第1期

机译：通过地面材料持续，光催化二氧化碳在连续流动反应器中减少CH4：降低二氧化钛-Cu2O Z-方案异质结构
6. Highly stable 3D/2D WO3/g-C3N4 Z-scheme heterojunction for stimulating photocatalytic CO2 reduction by H2O/H-2 to CO and CH4 under visible light [J] . Tahir Beenish, Tahir Muhammad, Nawawi Mohd Ghazali Mohd Journal of CO2 Utilization . 2020,第1期

机译：高度稳定的3D / 2D WO3 / G-C3N4 Z - 方案异质结以在可见光下通过H 2 O / H-2刺激光催化二氧化碳减少至CO和CH4
7. Integration of Copper(II)-Porphyrin Zirconium Metal-Organic Framework and Titanium Dioxide to Construct Z-Scheme System for Highly Improved Photocatalytic CO2 Reduction [J] . Wang Lei, Jin Pengxia, Huang Jingwei, ACS Sustainable Chemistry & Engineering . 2019,第18期

机译：铜（II） - 孢子锆金属 - 有机骨架和二氧化钛的整合构建高度改善的光催化二氧化碳的Z形式系统
8. Novel Catalysts for the Photocatalytic Conversion of CO2/H2O and CO2/CH4 Systems to Syngas [C] . Karishma Piler, Paul Bernazzani, Cristian Bahrim AIChE Annual Meeting . 2016

机译：用于Co2 / H2O和CO2 / CH4系统的光催化转化为合成气的新型催化剂
9. Designing Materials for Inorganic and Living Photocatalytic Systems for Air, Water, and CO2 Reduction from Sunlight [D] . Ding, Yuchen. 2017

机译：设计用于无机和活性光催化系统以减少阳光，空气，水和CO2的材料
10. Enhanced Photocatalytic CO2 Reduction inDefect-Engineered Z-Scheme WO3–x/g-C3N4 Heterostructures [O] . Shaolong Huang, Yaojia Long, Shuangchen Ruan, 2019

机译：增强光催化二氧化碳的还原缺陷工程Z方案WO3-x / g-C3N4异质结构
11. Sustained, photocatalytic CO2 reduction to CH4 in a continuous flow reactor by earth-abundant materials: Reduced titania-Cu2O Z-scheme heterostructures [O] . Shahzad Ali, Junho Lee, Hwapyong Kim, 2020

机译：通过地面材料持续，光催化二氧化碳在连续流动反应器中减少至CH4：减少二氧化钛-Cu2O Z-方案异质结构
12. CO2 Reduction Using Biomimetic Photocatalytic Nanodevices. Final Report [R] . Song, Y., Garcia, R. M., Wang, Z., 2009

机译：使用仿生光催化纳米器件减少CO2。总结报告

Lead-free perovskite Cs2AgBiBr6@g-C3N4 Z-scheme system for improving CH4 production in photocatalytic CO2 reduction

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