Three-terminal field effect devices utilizing thin film vanadium oxide as the channel layer
- Authors
- Ruzmetov, D (Ruzmetov, Dmitry); Gopalakrishnan, G (Gopalakrish; Ko, CH (Ko, Changhyun); Narayanamurti, V (Narayanamurt; Ramanathan, S (Ramanathan, Shr
- Issue Date
- Jun-2010
- Publisher
- AMER INST PHYSICS
- Citation
- JOURNAL OF APPLIED PHYSICS, v.107, no.11
- Journal Title
- JOURNAL OF APPLIED PHYSICS
- Volume
- 107
- Number
- 11
- URI
- https://scholarworks.sookmyung.ac.kr/handle/2020.sw.sookmyung/147920
- DOI
- 10.1063/1.3408899
- ISSN
- 0021-8979
1089-7550
- Abstract
- Electrostatic control of the metal-insulator transition (MIT) in an oxide semiconductor could potentially impact the emerging field of oxide electronics. Vanadium dioxide (VO(2)) is of particular interest due to the fact that the MIT happens in the vicinity of room temperature and it is considered to exhibit the Mott transition. We present a detailed account of our experimental investigation into three-terminal field effect transistor-like devices using thin film VO(2) as the channel layer. The gate is separated from the channel through an insulating gate oxide layer, enabling true probing of the field effect with minimal or no interference from large leakage currents flowing directly from the electrode. The influence of the fabrication of multiple components of the device, including the gate oxide deposition, on the VO(2) film characteristics is discussed. Further, we discuss the effect of the gate voltage on the device response, point out some of the unusual characteristics including temporal dependence. A reversible unipolar modulation of the channel resistance upon the gate voltage is demonstrated for the first time in optimally engineered devices. The results presented in this work are of relevance toward interpreting gate voltage response in such oxides as well as addressing challenges in advancing gate st
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