纳米片
材料科学
纳米棒
成核
正交晶系
形态学(生物学)
热分解
化学工程
溶解
相(物质)
热液循环
相变
纳米技术
再结晶(地质)
晶体结构
结晶学
化学
有机化学
物理
生物
工程类
古生物学
量子力学
遗传学
作者
Caixia Li,Qiong Sun,Nianpeng Lu,B.Y. Chen,Wenjun Dong
标识
DOI:10.1016/j.jcrysgro.2012.01.041
摘要
The morphology and size of the functional oxide rare earth material CeO2 are crucial for its efficient applications. CeO2 nanosheets, which are 30–50 nm in thickness and about 300 nm in the lateral direction, have been synthesized via controlling the morphology of CeOHCO3 precursors by a facile hydrothermal technique. The dependences of morphologies and phase transitions of CeOHCO3 precursors on reaction time, chemical compositions are investigated in detail. Results show that the precursors exhibit changes both in morphology and phase structure as reaction time elongated. One-dimensional nanowire morphology with an orthorhombic phase structure is obtained when the reaction time is less than 3 h, while two-dimensional nanosheet with a hexagonal phase structure is formed when the reaction time is more than 9 h. The detailed transition process is recorded by snapshots of products between 3 and 9 h. Experimental results reveal that the amount of acetic acid is a key parameter for the nucleation and crystal growth of CeOHCO3 nanosheets. A defect driven dissolving and recrystallization mechanism is proposed for the phase and morphology transition behavior of the precursors. The CeO2 nanosheets are obtained after thermal decomposition of the precursors. Compared to the nanodisk, the CeO2 nanosheets show a blue shift in the UV–Vis absorption spectra due to the quantum confinement effect.
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