1D Oxide Nanostructures Obtained by Sol-Gel and Hydrothermal Methods(SpringerBriefs in Materials)
由溶胶-凝胶与水热方法得到的1D氧化物纳米结构
材料科学基础学科
¥
690.00
售 价:
¥
552.00
优惠
平台大促 低至8折优惠
发货周期:外国库房发货,通常付款后3-5周到货
出版时间
2016年09月06日
装 帧
平装
页 码
82
语 种
英文
综合评分
暂无评分
- 图书详情
- 目次
- 买家须知
- 书评(0)
- 权威书评(0)
图书简介
This book presents wet chemical sol-gel and hydrothermal methods for 1D oxide nanostructure preparation. These methods represent an attractive route to multifunctional nanomaterials synthesis, as they are versatile, inexpensive and, thus, appropriate for obtaining a wide range of oxide materials with tailored morphology and properties. Three specific oxides (SiO2, TiO2, ZnO) are discussed in detail in order to illustrate the principle of the sol-gel and hydrothermal preparation of 1D oxide nanostructures. Other oxides synthesized via this method are also briefly presented. Throughout the book, the correlation between the tubular structure and the physico-chemical properties of these materials is highlighted. 1D oxide nanostructures exhibit interesting optical and electrical properties, due to their confined morphology. In addition, a well-defined geometry can be associated with chemically active species. For example, the pure SiO2 nanotubes presented a slight photocatalytic activity, while the Pt-doped SiO2 tubular materials act as microreactors in catalytic reactions. In the case of titania and titanate nanotubes, large specific surface area and pore volume, ion-exchange ability, enhanced light absorption, and fast electron-transport capability have attracted significant research interest. The chemical and physical modifications (microwave assisted hydrothermal methods) discussed here improve the formation kinetics of the nanotubes. The ZnO nanorods/tubes were prepared as random particles or as large areas of small, oriented 1D ZnO nanostructures on a variety of substrates. In the latter case a sol-gel layer is deposited on the substrate prior to the hydrothermal preparation. Using appropriate dopants, coatings of ZnO nanorods with controlled electrical behavior can be obtained.
本书暂无推荐
本书暂无推荐
看了又看
- 上一个
