Reactive Oxidation Induced Stoichiometric Modulation of Multivalent Vanadium Oxides

Sehwan Song; Dooyong Lee; Yeongjun Son; Yesul Choi; Jiwoong Kim; Seonghoon Han; Jisung Lee; Seokjun Kim; Seung Gyo Jeong; Si‐Heon Lim; Jiafeng Yan; Songkil Kim; Woo Seok Choi; Hyun Ho Kim; Jaeyong Kim; Jong‐Seong Bae; Naoshia Takesue; Chanyong Hwang; Sungkyun Park

doi:10.1002/smsc.202300171

Small Science (Apr 2024)

Reactive Oxidation Induced Stoichiometric Modulation of Multivalent Vanadium Oxides

Sehwan Song,
Dooyong Lee,
Yeongjun Son,
Yesul Choi,
Jiwoong Kim,
Seonghoon Han,
Jisung Lee,
Seokjun Kim,
Seung Gyo Jeong,
Si‐Heon Lim,
Jiafeng Yan,
Songkil Kim,
Woo Seok Choi,
Hyun Ho Kim,
Jaeyong Kim,
Jong‐Seong Bae,
Naoshia Takesue,
Chanyong Hwang,
Sungkyun Park

Affiliations

Sehwan Song: Department of Physics Pusan National University Busan 46241 Korea
Dooyong Lee: Department of Physics Pusan National University Busan 46241 Korea
Yeongjun Son: Department of Physics Pusan National University Busan 46241 Korea
Yesul Choi: Department of Physics Pusan National University Busan 46241 Korea
Jiwoong Kim: Department of Physics Pusan National University Busan 46241 Korea
Seonghoon Han: Department of Physics Pusan National University Busan 46241 Korea
Jisung Lee: Department of Physics Pusan National University Busan 46241 Korea
Seokjun Kim: School of Mechanical Engineering Pusan National University Busan 46241 Korea
Seung Gyo Jeong: Department of Physics Sungkyunkwan University Suwon 16419 Korea
Si‐Heon Lim: Department of Energy Engineering Convergence & School of Materials Science and Engineering Kumoh National Institute of Technology Gumi 39177 Korea
Jiafeng Yan: Department of Physics and Institute for High Pressure Hanyang University Seoul 04763 Korea
Songkil Kim: School of Mechanical Engineering Pusan National University Busan 46241 Korea
Woo Seok Choi: Department of Physics Sungkyunkwan University Suwon 16419 Korea
Hyun Ho Kim: Department of Energy Engineering Convergence & School of Materials Science and Engineering Kumoh National Institute of Technology Gumi 39177 Korea
Jaeyong Kim: Department of Physics and Institute for High Pressure Hanyang University Seoul 04763 Korea
Jong‐Seong Bae: Busan Center Korea Basic Science Institute Busan 46742 Korea
Naoshia Takesue: Department of Applied Physics Fukuoka University Fukuoka 814‐0180 Japan
Chanyong Hwang: Quantum Spin Team Korea Research Institute of Standards & Science Daejeon 34113 Korea
Sungkyun Park: Department of Physics Pusan National University Busan 46241 Korea

DOI: https://doi.org/10.1002/smsc.202300171
Journal volume & issue: Vol. 4, no. 4
pp. n/a – n/a

Abstract

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Vanadium oxides, such as V2O3, VO2, and V2O5, have attracted considerable attention because of the fascinating physical properties of each oxidation state. On the other hand, precisely controlling the individual oxidation states is difficult due to the sensitivity of oxygen stoichiometry. This article reports that reactive oxygen annealing (ROA) can systematically change the oxidation state of the vanadium oxide films grown on a c‐Al2O3 substrate compared with typical annealing under O2 environments. Chemical, structural, electronic, and electrical analysis confirms the evolution of the vanadium oxide phases from V2O3 to V2O3/VO2, VO2, VO2/V2O5, and V2O5, showing that the ROA method can control and tune the oxidation state of the highly oxygen‐sensitive multivalent metal oxides.

Published in Small Science

ISSN: 2688-4046 (Online)
Publisher: Wiley-VCH
Country of publisher: Germany
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Materials of engineering and construction. Mechanics of materials
Website: https://onlinelibrary.wiley.com/journal/26884046

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