金负载和粒径对 Au/TiO₂纳米粒子光催化乙醇制氢的影响。

The effect of gold loading and particle size on photocatalytic hydrogen production from ethanol over Au/TiO₂ nanoparticles.

机构信息

Energy Futures Research Centre, Department of Chemistry, University of Aberdeen, Aberdeen AB243UE, UK.

出版信息

Nat Chem. 2011 Jun;3(6):489-92. doi: 10.1038/nchem.1048. Epub 2011 May 15.

Abstract

Catalytic hydrogen production from renewables is a promising method for providing energy carriers in the near future. Photocatalysts capable of promoting this reaction are often composed of noble metal nanoparticles deposited on a semiconductor. The most promising semiconductor at present is TiO₂. The successful design of these catalysts relies on a thorough understanding of the role of the noble metal particle size and the TiO₂ polymorph. Here we demonstrate that Au particles in the size range 3-30 nm on TiO₂ are very active in hydrogen production from ethanol. It was found that Au particles of similar size on anatase nanoparticles delivered a rate two orders of magnitude higher than that recorded for Au on rutile nanoparticles. Surprisingly, it was also found that Au particle size does not affect the photoreaction rate over the 3-12 nm range. The high hydrogen yield observed makes these catalysts promising materials for solar conversion.

摘要

从可再生能源中催化制氢是提供未来能源载体的一种很有前途的方法。能够促进这一反应的光催化剂通常由沉积在半导体上的贵金属纳米颗粒组成。目前最有前途的半导体是 TiO₂。这些催化剂的成功设计依赖于对贵金属颗粒尺寸和 TiO₂多晶型的作用的深入理解。在这里，我们证明了尺寸在 3-30nm 范围内的 TiO₂上的 Au 颗粒在乙醇制氢中非常活跃。研究发现，在锐钛矿纳米粒子上具有相似尺寸的 Au 颗粒的反应速率比在金红石纳米粒子上记录的 Au 颗粒的反应速率高两个数量级。令人惊讶的是，还发现 Au 颗粒尺寸在 3-12nm 范围内并不影响光反应速率。观察到的高产氢量使得这些催化剂成为太阳能转化有前途的材料。

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A phenomenological study of the metal-oxide interface: the role of catalysis in hydrogen production from renewable resources.金属氧化物界面的现象学研究：催化在可再生资源制氢中的作用。

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金负载和粒径对 Au/TiO₂纳米粒子光催化乙醇制氢的影响。

The effect of gold loading and particle size on photocatalytic hydrogen production from ethanol over Au/TiO₂ nanoparticles.

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