Understanding photocatalytic coupled-dye degradation, and photoelectrocatalytic water splitting and CO2 reduction over WO3/MoO3 hybrid nanostructures

Lee Jisuk; Kim Seog K.; Sohn Youngku

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Understanding photocatalytic coupled-dye degradation, and photoelectrocatalytic water splitting and CO2 reduction over WO3/MoO3 hybrid nanostructures

机译：了解光催化偶联染料降解，以及WO3 / MOO3杂交纳米结构上的光电催化水分解和CO2

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WO3/MoO3 hybrid nanostructures were first prepared by a two-step hydrothermal method and applied to photocatalytic coupled-dye degradation, photoelectrocatalytic water splitting and CO2 reduction. Methyl orange (MO), rhodamine B (RhB) and methylene blue (MB) were used to examine dye coupling effect for photodegradation. Poorly photodegraded MO was found to be easily removed by coupling with MB. W-rich oxide material was found to be efficient for removal of MO and MB while Mo-rich material was more efficient for RhB. The WO3/MoO3 hybrid structure showed a dramatically improved performance than those of pure WO3 and MoO3 for water splitting and CO2 reduction. (C) 2018 The Korean Society of Industrial and Engineering Chemistry. Published by Elsevier B.V. All rights reserved.

机译：首先通过两步水热法制备WO3 / MOO3杂交纳米结构，并施加到光催化偶联染料降解，光电催化水分解和CO2还原。使用甲基橙（Mo），罗丹明B（RHB）和亚甲基蓝（MB）来检查光降解的染料偶联效果。发现光降解的MO不良，通过与MB耦合容易地除去。发现W-富含W的氧化物材料是为了除去Mo和Mb而有效，而Mo的材料对RHB更有效。 WO3 / MOO3混合结构显示出比纯WO3和用于水分裂和CO2还原的性能的显着改善的性能。（c）2018年韩国工程和工程化学学会。 elsevier b.v出版。保留所有权利。

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《Journal of industrial and engineering chemistry》 |2018年第2018期|共13页
作者
Lee Jisuk; Kim Seog K.; Sohn Youngku;
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作者单位

Yeungnam Univ Dept Chem Gyongsan 38541 Gyeongbuk South Korea;

Yeungnam Univ Dept Chem Gyongsan 38541 Gyeongbuk South Korea;

Yeungnam Univ Dept Chem Gyongsan 38541 Gyeongbuk South Korea;

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正文语种 eng
中图分类化学工业;
关键词
WO3/MoO3 hybrid; Photocatalyst; Coupled-dye degradation; Water splitting; CO2 reduction;

机译：WO3 / MOO3杂交;光催化剂;偶联染料降解;水分裂;CO2还原;

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1. Understanding photocatalytic coupled-dye degradation, and photoelectrocatalytic water splitting and CO2 reduction over WO3/MoO3 hybrid nanostructures [J] . Lee Jisuk, Kim Seog K., Sohn Youngku Journal of industrial and engineering chemistry . 2018,第期

机译：了解光催化偶联染料降解，以及WO3 / MOO3杂交纳米结构上的光电催化水分解和CO2
2. Photocatalytic water-splitting solar-to-hydrogen energy conversion: Novel LiMoO3(IO3) molybdenyl iodate based on WO3-type sheets [J] . Reshak Ali H., Auluck Sushil Journal of Catalysis . 2017,第期

机译：光催化水分解太阳能 - 氢气能转换：基于WO3型片材的新型LiMOO3（IO3）钼碘酸盐
3. Recent advances in 3D g-C3N4 composite photocatalysts for photocatalytic water splitting, degradation of pollutants and CO2 reduction [J] . Li Xibao, Xiong Jie, Gao Xiaoming, Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2019,第期

机译：3D G-C3N4复合光催化剂的最新进展，用于光催化水分裂，污染物降解和CO2减少
4. PHOTOCATALYTIC REDUCTION OF CO2 OVER A HYBRID PHOTOCATALYST COMPOSED OF WO3 AND GRAPHITIC CARBON NITRIDE(g-C3N4)UNDER VISIBLE LIGHT [C] . Teruhisa Ohno American Chemical Society National Meeting Exhibition . 2014

机译：在可见光下由WO3和石墨碳氮化物（G-C3N4）组成的混合光催化剂上的CO2的光催化还原
5. Hydrogen Bronzes of WO3 and MoO3 as Active (Photo)-Catalyst Supports for CO2 Reduction [D] . Li, Young Feng. 2020

机译：WO3和MOO3的氢气谐波作为活性（照片） - 用于减少二氧化碳的催化剂支持
6. Photocatalytic Applications of Heterostructure Graphitic Carbon Nitride: Pollutant Degradation Hydrogen Gas Production (water splitting) and CO2 Reduction [O] . Williams Kweku Darkwah, Kivyiro Adinas Oswald 2019

机译：异质结构石墨氮化碳的光催化应用：污染物降解氢气产生（水分解）和CO2还原
7. Photocatalytic reduction of CO2 over a hybrid photocatalyst composed of WO3 and graphitic carbon nitride (g-C3N4) under visible light [O] . Ohno Teruhisa, Murakami Naoya, Koyanagi Takahiro, 2014

机译：在可见光下，由WO3和石墨氮化碳（g-C3N4）组成的混合光催化剂对CO2的光催化还原

Understanding photocatalytic coupled-dye degradation, and photoelectrocatalytic water splitting and CO2 reduction over WO3/MoO3 hybrid nanostructures

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