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Crystal-facet-dependent hot-electron transfer in plasmonic-Au/semiconductor heterostructures for efficient solar photocatalysis

机译：等离子体-Au /半导体异质结构中依赖于晶面的热电子转移，以有效地进行太阳能光催化

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Here, using Au-BiOCl as models, we show the significant crystal facet effects of the semiconductor on hot-electron transfer within such plasmonic heterostructures under visible light. It is found that {010} facets of BiOCl are greatly advantageous over {001} facets for the hot-electron injection, as evidenced by steady-state diffuse reflectance spectroscopy and photoelectrochemical measurements. Consequently, Au-BiOCl-010 exhibits superior activity for photocatalytic aerobic oxidation of 2-propanol with a quantum efficiency of 1.3%, being 3.5 times higher than that of Au-BiOCl-001. The differences in band structure between the {001} and {010} facets of BiOCl may account for the facet-dependent hot-electron transfer characteristics.

机译：在这里，使用Au-BiOCl作为模型，我们显示了在可见光下，这种等离激元异质结构中半导体对热电子转移的显着晶面效应。发现稳态热扩散反射光谱法和光电化学测量证明，BiOCl的{010}面在热电子注入方面大大优于{001}面。因此，Au-BiOCl-010对2-丙醇的光催化有氧氧化具有优异的活性，量子效率为1.3％，是Au-BiOCl-001的3.5倍。 BiOCl的{001}和{010}刻面之间的能带结构差异可能解释了依赖于刻面的热电子传递特性。

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Liu, Guigao; Wang, Tao; Zhou, Wei; Meng, Xianguang; Zhang, Huabin; Liu, Huimin; Kako, Tetsuya; Ye, Jinhua;
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年度 2015
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1. Crystal-facet-dependent hot-electron transfer in plasmonic-Au/semiconductor heterostructures for efficient solar photocatalysis [J] . Liu Guigao, Wang Tao, Zhou Wei, Journal of Materials Chemistry, C. materials for optical and electronic devices . 2015,第29期

机译：等离子体-Au /半导体异质结构中依赖于晶面的热电子转移，以有效地进行太阳能光催化
2. Real-space transfer and hot-electron transport properties in III-V semiconductor heterostructures [J] . Sakamoto R., Akai K. IEEE Transactions on Electron Devices . 1989,第10期

机译：III-V半导体异质结构中的实空间转移和热电子传输性质
3. Prolonged Hot Electron Dynamics in Plasmonic-Metal/Semiconductor Heterostructures with Implications for Solar Photocatalysis [J] . Joseph S. DuChene, Brendan C. Sweeny, Aaron C. Johnston-Peck Angewandte Chemie . 2014,第30期

机译：等离子体-金属/半导体异质结构中的热电子动力学及其对太阳光催化的影响
4. Core-shell WO_3/TiO_2 nanorod heterostructures for solar light photocatalysis [C] . Peng Guo, Lingtao Meng, Changhua Wang International Forum on Materials Analysis and Testing Technology . 2014

机译：核心壳WO_3 / TiO_2纳米棒异质结构用于太阳光光催化
5. Synthesis of Colloidal Semiconductor Heterostructures for Photocatalysis [D] . Enright, Michael Job. 2019

机译：用于光催化的胶体半导体异质结构的合成
6. Plasmonic Photocatalysis: Plasmon‐Mediated Solar Energy Conversion via Photocatalysis in Noble Metal/Semiconductor Composites (Adv. Sci. 6/2016) [O] . Mengye Wang, Meidan Ye, James Iocozzia, 2016

机译：等离子体光催化：贵金属/半导体复合材料中通过光催化的等离子体介导的太阳能转化（Adv。Sci。6/2016）
7. Emerging approach in semiconductor photocatalysis: Towards 3D architectures for efficient solar fuels generation in semi-artificial photosynthetic systems [O] . Chong-Yong Lee, Jinshuo Zou, John Bullock, 2019

机译：半导体光电偶分析的新兴方法：朝向半人工光合体系中高效太阳能燃料的3D架构

Crystal-facet-dependent hot-electron transfer in plasmonic-Au/semiconductor heterostructures for efficient solar photocatalysis

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