Role of annealing temperature on the sol–gel synthesis of VO2 nanowires with in situ characterization of their metal–insulator transition

Y.-R. Jo; S.-H. Myeong; B.-J. Kim

doi:10.1039/C7RA10865F

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Role of annealing temperature on the sol–gel synthesis of VO₂ nanowires with in situ characterization of their metal–insulator transition†

Y.-R. Jo,^a S.-H. Myeong^a and B.-J. Kim

*^a

Author affiliations

* Corresponding authors

^a School of Materials Science and Engineering, Gwangju Institute of Science and Technology (GIST), 123 Cheomdangwagi-ro, Buk-gu, Gwangju, Korea
E-mail: kimbj@gist.ac.kr
Tel: +82-062-715-2341

Abstract

Among the techniques to create VO₂ nanostructures, the sol–gel method is the most facile and benefits from simple, manipulable synthetic parameters. Here, by utilizing various TEM techniques, we report the sequential morphological evolution of VO₂ nanostructures in a sol–gel film spin-coated on a customized TEM grid, which underwent oxygen reduction as the annealing temperature increased. In situ TEM dark-field imaging and Raman spectroscopy allowed us to confirm the sharp phase transition behavior of an individual nanowire by illustrating the effect of electrode-clamping-induced tensile stress on the nucleation of the R phase from the M1 phase. The electrical transport properties of a single-nanowire device fabricated on a customized TEM grid showed excellent control of the stoichiometry and crystallinity of the wire. These results offer critical information for preparing tailored VO₂ nanostructures with advanced transition properties by the sol–gel method to enable the fabrication of scalable flexible devices.

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Article information

DOI: https://doi.org/10.1039/C7RA10865F
Article type: Paper
Submitted: 01 Oct 2017
Accepted: 23 Jan 2018
First published: 30 Jan 2018
This article is Open Access

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RSC Adv., 2018,8, 5158-5165

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Role of annealing temperature on the sol–gel synthesis of VO₂ nanowires with in situ characterization of their metal–insulator transition

Y.-R. Jo, S.-H. Myeong and B.-J. Kim, RSC Adv., 2018, 8, 5158 DOI: 10.1039/C7RA10865F

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