Fabrication of Metal-oxide Nanoparticles by the Liquid Phase Deposition Method in the Heterogeneous System

Shigehito DEKI; Akiyoshi NAKATA; Minoru MIZUHATA

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Fabrication of Metal-oxide Nanoparticles by the Liquid Phase Deposition Method in the Heterogeneous System

机译：金属氧化物纳米颗粒的制备液相沉积法异构系统

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For the development of the preparation method of size-controlled nanoparticles, we applied the liquid phase deposition (LPD) method to the reverse micelle (RM) reaction contained TritonX-100 and 1-hexanol. We prepared two kinds of metal oxide nanoparticle; TiO{sub}2 and SnO{sub}2. The average sizes of nanoparticles were 5.9 nm and 3.0 nm for TiO{sub}2 and SnO{sub}2, respectively. The size distribution was narrow, and crystallization of the particles was promoted by the nano-scale reaction field. The bandgap was calculated from UV-Vis spectra. The bandgap energy of SnO{sub}2 nanoparticles showed a larger value at 4.6 eV, whereas that of TiO{sub}2 nanoparticles showed a constant value at 3.2 eV. The quantum effect causes the variation of the bandgap, however, the effect depends on the kinds of the metal oxide.

机译：制备方法的发展size-controlled纳米粒子,我们应用了液相沉积(LPD)方法包含反向胶束(RM)反应tritonx - 100和1-hexanol。金属氧化物纳米颗粒;SnO{子}2。是5.9和3.0 nm TiO{子}2和SnO{子}2,分别。窄,颗粒的结晶被提拔的纳米领域的反应。紫外可见光谱的能带计算。的能带隙能量SnO{子}2纳米颗粒显示更大的值在4.6 eV,而TiO{子}2纳米颗粒显示一个恒定值3.2 eV。然而,能带的变化效果取决于类型的金属氧化物。

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《電気化学および工業物理化学》 |2004年第6期|452-454|共3页
作者
Shigehito DEKI; Akiyoshi NAKATA; Minoru MIZUHATA;
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正文语种英语
中图分类物理化学（理论化学）、化学物理学;一般性问题;物理学;
关键词
quantum effect; Nanoparticles; metal oxidesband gap energyliquid phase depositionBand gapstannic oxidereverse micelletitanium oxidesHETEROGENEOUS SYSTEM1-hexanol;

机译：energyliquid阶段depositionBand gapstannicoxidereverse micelletitanium oxidesHETEROGENEOUSSYSTEM1-hexanol;

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Fabrication of Metal-oxide Nanoparticles by the Liquid Phase Deposition Method in the Heterogeneous System

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