One-pot synthesis of Bi sub(2)Se sub(3) nanostructures with rationally tunable morphologies

Shape control has proven to be a powerful and versatile means of tailoring the properties of Bi sub(2)Se sub(3) nanostructures for a wide variety of applications. Here, three different Bi sub(2)Se sub(3) nanostructures, i.e., spiral-type nanoplates, smooth nanoplates, and dendritic nanostructures, w...

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Bibliographic Details
Published in:Nano research 2015-11, Vol.8 (11), p.3612-3620
Main Authors: Liu, Xianli, Xu, Jinwei, Fang, Zhicheng, Lin, Lin, Qian, Yu, Wang, Youcheng, Ye, Chunmiao, Ma, Chao, Zeng, Jie
Format: Article
Language:English
Subjects:
Agglomeration
Crystal defects
Crystal growth
Formations
Morphology
Nanostructure
Supersaturation
Synthesis
Online Access:Get full text
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Summary:Shape control has proven to be a powerful and versatile means of tailoring the properties of Bi sub(2)Se sub(3) nanostructures for a wide variety of applications. Here, three different Bi sub(2)Se sub(3) nanostructures, i.e., spiral-type nanoplates, smooth nanoplates, and dendritic nanostructures, were prepared by manipulating the supersaturation level in the synthetic system. This mechanism study indicated that, at low supersaturation, defects in the crystal growth could cause a step edge upon which Bi sub(2)Se sub(3) particles were added continuously, leading to the formation of spiral-type nanoplates. At intermediate supersaturation, the aggregation of amorphous Bi sub(2)Se sub(3) particles and subsequent recrystallization resulted in the formation of smooth nanoplates. Furthermore, at high supersaturation, polycrystalline Bi sub(2)Se sub(3) cores formed initially, on which anisotropic growth of Bi sub(2)Se sub(3) occurred. This work not only advances our understanding of the growth mechanism but also offers a new approach to control the morphology of Bi sub(2)Se sub(3) nanostructures. [Figure not available: see fulltext.]
ISSN:1998-0124
1998-0000
DOI:10.1007/s12274-015-0861-4