强可见光响应的等离子体 AgX:Ag（X = Cl，Br）纳米粒子用于将 CO2 还原为甲醇。

Strongly visible-light responsive plasmonic shaped AgX:Ag (X = Cl, Br) nanoparticles for reduction of CO2 to methanol.

机构信息

State Key Laboratory of Heavy Oil Processing and Department of Materials Physics and Chemistry, Key Laboratory of New Energy Physics & Materials Science in Universities of Shandong, College of Science, China University of Petroleum, Qingdao, Shandong 266580, P. R. China.

出版信息

Nanoscale. 2012 Sep 21;4(18):5646-50. doi: 10.1039/c2nr31213a. Epub 2012 Aug 7.

DOI:10.1039/c2nr31213a

PMID:22869008

Abstract

Plasmonic shaped AgX:Ag (X = Cl, Br) nanoparticles have been synthesized by a facile and versatile glycerol-mediated solution route. The as-prepared AgX:Ag nanoparticles exhibit regular shapes, i.e., cube-tetrapod-like AgCl:Ag nanoparticles and AgBr:Ag nanoplates. Compared with the pristine AgX, AgX:Ag nanocomposites display stronger absorption in the visible region due to the surface plasmon resonance of silver nanoparticles. The calculation of bandgaps and band positions indicates the as-achieved AgX:Ag nanoparticles can be used as a class of potential photocatalyst for the reduction of CO(2). For example, reduction of CO(2) under visible light irradiation with the assistance of the anisotropic AgX:Ag nanoparticles yields as much as 100 μmol methanol in the products. Furthermore, the AgX:Ag nanoparticles can maintain its structure and activity after 3 runs of reactions. Therefore, the present route opens an avenue to acquire plasmonic photocatalysts for conversion of CO(2) into useful organic compounds.

摘要

通过一种简便且通用的甘油介导的溶液途径，已经成功合成了等离子体形状的 AgX:Ag（X = Cl，Br）纳米粒子。所制备的 AgX:Ag 纳米粒子呈现出规则的形状，即立方四足状 AgCl:Ag 纳米粒子和 AgBr:Ag 纳米板。与原始 AgX 相比，AgX:Ag 纳米复合材料由于银纳米粒子的表面等离子体共振，在可见光区域显示出更强的吸收。能带隙和能带位置的计算表明，所获得的 AgX:Ag 纳米粒子可用作一类潜在的光催化剂，用于还原 CO(2)。例如，在可见光照射下，在各向异性 AgX:Ag 纳米粒子的辅助下，产物中 CO(2)的还原高达 100 μmol 甲醇。此外，AgX:Ag 纳米粒子在 3 次反应后仍能保持其结构和活性。因此，该方法为获取等离子体光催化剂提供了一种途径，用于将 CO(2)转化为有用的有机化合物。

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强可见光响应的等离子体 AgX:Ag（X = Cl，Br）纳米粒子用于将 CO2 还原为甲醇。

Strongly visible-light responsive plasmonic shaped AgX:Ag (X = Cl, Br) nanoparticles for reduction of CO2 to methanol.

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