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氧化锌分级纳米结构：简单的溶剂热合成及生长机制

ZnO hierarchical nanostructures: simple solvothermal synthesis and growth mechanism.

作者信息

Dev Apurba, Kar Soumitra, Chaudhuri Subhadra

机构信息

Department of Materials Science, Indian Association for the Cultivation of Science, Kolkata 700032, India.

出版信息

J Nanosci Nanotechnol. 2008 Sep;8(9):4506-13.

Abstract

Hierarchical nano/micro structures of ZnO have been fabricated by solvothermal approach on sol-gel derived ZnO thin films. Paintbrush like nano/micro rod assembly, double-sided brush and windmill type architectures of ZnO are obtained when the ZnO thin film coated substrates were treated solvothermally in water at pH 10. Aligned nanorods are obtained at pH approximately 13.5 in water. In ethylenediamine-water solvent divergent micro/nanorod assemblies such as hemispherical dandelion, rice plant type bush of ZnO are obtained. Increase in the percentage of ethyelendiamine resulted in the formation of smaller assemblies of relatively thin nanorods. Initial slow reaction caused by the slow increase of the temperature inside the reaction medium and the different growth kinetics of the ZnO crystals are supposed to be the reason behind the architectural assemblies of the ZnO crystals.

摘要

通过溶剂热法在溶胶 - 凝胶衍生的ZnO薄膜上制备了ZnO的分级纳米/微结构。当在pH值为10的水中对涂覆有ZnO薄膜的基板进行溶剂热处理时，可获得画笔状纳米/微棒组件、双面刷状和风车型ZnO结构。在水中pH约为13.5时可获得排列整齐的纳米棒。在乙二胺 - 水溶剂中，可获得诸如半球形蒲公英、水稻植株型ZnO灌木丛等发散型微/纳米棒组件。乙二胺百分比的增加导致形成相对较细纳米棒的较小组件。反应介质内部温度的缓慢升高引起的初始缓慢反应以及ZnO晶体不同的生长动力学被认为是ZnO晶体结构组件形成的原因。

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