Effect of the particle size for photocatalytic decomposition of water on Ni-loaded K4Nb6O17

Microporous Materials Pub Date : 1997-05-01 DOI:10.1016/S0927-6513(96)00112-5
Shigeru Ikeda , Akira Tanaka , Kiyoaki Shinohara , Michikazu Hara , Junko N. Kondo , Ken-ichi Maruya , Kazunari Domen
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引用次数: 68

Abstract

The photocatalytic activities of water splitting by small particles (0.1–2 μm) of K4Nb6O17 were studied. The milled catalysts were prepared by two kinds of ball-milling methods from the powder whose particles were several tens of micrometers in diameter. The surface area of the milled catalyst measured by N2 adsorption at 77 K increased by an order of magnitude. The crystal structure was almost retained as K4Nb6O17, as evidenced by the results of X-ray diffraction and scanning electron micrography. The photocatalytic activity for an overall decomposition of water of the Ni-loaded K4Nb6O17 was twice as high as that for the original catalyst.

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负载ni的K4Nb6O17光催化分解水的粒径影响
研究了K4Nb6O17小颗粒(0.1 ~ 2 μm)光催化裂解水的活性。以粒径为几十微米的粉末为原料,采用两种球磨方法制备了球磨催化剂。在77 K时用N2吸附法测得的磨粉催化剂的表面积增加了一个数量级。x射线衍射和扫描电镜结果表明,晶体结构基本保持了K4Nb6O17的形态。负载ni的K4Nb6O17对水的整体分解光催化活性是原催化剂的两倍。
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Microporous Materials
Microporous Materials
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Author index Subject index Contents Investigation of organosilanes as structure-directing agents in zeolite synthesis The influence of gel properties on the kinetics of crystallization and particulate properties of MFI-type zeolities. I. The influence of time and temperature of gel ageing on the particulate properties of silicalite-1 microcrystals
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