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Photocatalytic Reduction of CO2 by ZnO Microanomaterials with Different Morphologies and Ratios of {0001} Facets

机译：不同形态和比例的{0001}面的ZnO微纳米材料对CO2的光催化还原

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摘要

ZnO microspheres, ZnO microflowers and ZnO nanorods are successfully synthesized via a convenient solvothermal method in distilled water-ethanol mixed medium. The as-prepared ZnO microanomaterials are characterized by XRD, SEM, TEM, HRTEM, XPS, BET, and UV-Vis. The morphologies and exposed facets of the ZnO microanomaterials can be controlled by simply changing the volume ratio of distilled water to ethanol, and their formation mechanisms are also proposed. In addition, the photocatalytic activities of the ZnO samples are investigated towards the photoreduction of CO2 to CO. It is found that ZnO nanorods with high ratio of {0001} facets and large surface areas possess higher CO formation rate (3.814 μmol g⁻¹ h⁻¹) in comparison with ZnO microspheres and ZnO microflowers (3.357 and 1.627 μmol g⁻¹ h⁻¹, respectively). The results can not only provide an important indication about the influence of the {0001} facets on the activity of CO2 photoreduction over ZnO, but also demonstrate a strategy for tuning the CO2 photoreduction performance by tailoring the surface structures of ZnO microanomaterials.

机译：通过方便的溶剂热法在蒸馏水-乙醇混合介质中成功合成了ZnO微球，ZnO微花和ZnO纳米棒。所制备的ZnO微米/纳米材料的特征在于XRD，SEM，TEM，HRTEM，XPS，BET和UV-Vis。 ZnO微米/纳米材料的形貌和暴露面可以通过简单地改变蒸馏水与乙醇的体积比来控制，并提出了它们的形成机理。此外，还研究了ZnO样品对CO2还原成CO的光催化活性。发现{0001}晶面比例高且表面积大的ZnO纳米棒具有较高的CO生成率（3.814μmolg ^{-1 h ^{−1 ）与ZnO微球和ZnO花朵（3.357和1.627μmolg ^{-1 h ^{-1 ，分别）。结果不仅可以提供有关{0001}刻面对ZnO上CO2光还原活性的影响的重要指示，而且可以证明通过定制ZnO微/纳米材料的表面结构来调整CO2光还原性能的策略。}}}}

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期刊名称 Scientific Reports
作者
Xiaodi Liu; Liqun Ye; Shanshan Liu; Yinping Li; Xiaoxu Ji;
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年(卷),期 -1(6),-1
年度 -1
页码 38474
总页数 9
原文格式 PDF
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1. Photocatalytic Reduction of CO2 by ZnO Microanomaterials with Different Morphologies and Ratios of {0001} Facets [J] . Xiaodi Liu, Liqun Ye, Shanshan Liu, Scientific reports. . 2016 ,第1期

机译：不同形态和比例的{0001}面的ZnO微纳米材料对CO2的光催化还原
2. Adjusting the proportions of {0001} facets and high-index facets of ZnO hexagonal prisms and their photocatalytic activity [J] . Yu Liu, Haixia Liu, Qing Zhang, RSC Advances . 2017 ,第6期

机译：调整ZnO六角形棱镜的{0001}面和高折射率面的比例及其光催化活性
3. Adjusting the proportions of {0001} facets and high-index facets of ZnO hexagonal prisms and their photocatalytic activity [J] . Yu Liu, Haixia Liu, Qing Zhang, RSC Advances . 2017 ,第6期

机译：调整ZnO六角形棱镜的{0001}面和高折射率面的比例及其光催化活性
4. Study of ZnO Nanoparticles-Decorated TiO_2 {001} Facets Heterostructures and Their Photocatalytic Activity [C] . Keyue Wu, Jingbiao Cui International conference on metallurgy technology and materials . 2019

机译：ZnO纳米粒子修饰的TiO_2 {001}小平面异质结构及其光催化活性的研究
5. Photocatalytic CO2 Reduction Using Well-Defined Metal Sites on Nanostructured Surfaces [D] . Fenton, Thomas G. 2018

机译：使用纳米结构表面上定义的金属位点进行光催化二氧化碳还原
6. Solar Light Photocatalytic CO2 Reduction: General Considerations and Selected Bench-Mark Photocatalysts [O] . Ştefan Neaţu, Juan Antonio Maciá-Agulló, Hermenegildo Garcia 2014

机译：太阳光光催化还原CO2：一般注意事项和精选基准光催化剂
7. Photocatalytic Reduction of CO2 by ZnO Micro/nanomaterials with Different Morphologies and Ratios of {0001} Facets [O] . Xiaodi Liu, Liqun Ye, Shanshan Liu, 2016

机译：ZnO微/纳米材料的光催化还原CO2，具有不同形貌和{0001}小平面的比例

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