Keun Tae Oh scite author profile

Keun Tae Oh

3Publications

28Citation Statements Received

36Citation Statements Given

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Hanyang University, Anyang University

Publications

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High-Performance Zinc Tin Oxide Semiconductor Grown by Atmospheric-Pressure Mist-CVD and the Associated Thin-Film Transistor Properties

Park

Kim

et al. 2017

ACS Appl. Mater. Interfaces

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Zinc tin oxide (Zn-Sn-O, or ZTO) semiconductor layers were synthesized based on solution processes, of which one type involves the conventional spin coating method and the other is grown by mist chemical vapor deposition (mist-CVD). Liquid precursor solutions are used in each case, with tin chloride and zinc chloride (1:1) as solutes in solvent mixtures of acetone and deionized water. Mist-CVD ZTO films are mostly polycrystalline, while those synthesized by spin-coating are amorphous. Thin-film transistors based on mist-CVD ZTO active layers exhibit excellent electron transport properties with a saturation mobility of 14.6 cm/(V s), which is superior to that of their spin-coated counterparts (6.88 cm/(V s)). X-ray photoelectron spectroscopy (XPS) analyses suggest that the mist-CVD ZTO films contain relatively small amounts of oxygen vacancies and, hence, lower free-carrier concentrations. The enhanced electron mobility of mist-CVD ZTO is therefore anticipated to be associated with the electronic band structure, which is examined by X-ray absorption near-edge structure (XANES) analyses, rather than the density of electron carriers.

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Semiconductor behavior of Li doped ZnSnO thin film grown by mist-CVD and the associated device property

Lim

Jeong

et al. 2018

Journal of Alloys and Compounds

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Facile synthesis of AlO x dielectrics via mist-CVD based on aqueous solutions

Kim

et al. 2017

Ceramics International

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Keun Tae Oh

High-Performance Zinc Tin Oxide Semiconductor Grown by Atmospheric-Pressure Mist-CVD and the Associated Thin-Film Transistor Properties

Semiconductor behavior of Li doped ZnSnO thin film grown by mist-CVD and the associated device property

Facile synthesis of AlO x dielectrics via mist-CVD based on aqueous solutions

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