DGIST Scholar: Effect of Zr Addition on Sol-Gel Processed InZrZnO Thin-Film Transistor

Title: Effect of Zr Addition on Sol-Gel Processed InZrZnO Thin-Film Transistor

Citation: Kim, Dae-Hwan. (2012). Effect of Zr Addition on Sol-Gel Processed InZrZnO Thin-Film Transistor. Molecular Crystals and Liquid Crystals, 564(1), 130–137. doi: 10.1080/15421406.2012.691705

Author Keywords: Metal oxide ; thin film transistor ; sol-gel ; inzrzno ; solution process ; AMOLED

Keywords: Sol-Gel ; Sol-Gel Process ; Sol-Gels ; Solution-Processed ; Solution Process ; Subthreshold Swing ; Thin-Film Transistor (TFTs) ; Thin Film Transistor ; Thin Film Transistors ; Zirconium ; Zr Addition ; AM-OLED ; AMORPHOUS OXIDE SemICONDUCTORS ; Bias Stability ; CHANNEL ; Channel Layers ; CHemICAL SOLUTION DEPOSITION ; Doping Concentration ; Electric Field Effects ; Electrical Characteristic ; Field-Effect Mobilities ; inzrzno ; Metal Oxide ; Metal Oxides ; Metallic Compounds ; Off Current ; On/off Ratio ; PERFORMANCE ; Performance Properties ; Semiconducting Organic Compounds

Abstract: In this study, solution-processed InZrZnO thin films and a newly developed thin-film transistors (TFTs) were fabricated and characterized electrically. The InZrZnO TFTs were investigated according to the variation of the Zr-metal doping concentration. It was found that the off currents of InZrZnO TFTs were greatly influenced by the composition of Zr atoms suppressing formation of oxygen vacancies. The optimal transistor of InZrZnO channel layer shows good performance properties. The electrical characteristics of a 2.92mol% Zr-doped InZnO TFT shows a field effect mobility of 0.05cm 2 V 1 s 1, a threshold voltage of 6.1V, an on/off ratio of 1.4 10 7, and a subthreshold swing of 0.42V/dec. The InZrZnO TFT also shows better bias stability than undoped InZnO TFT, suggesting Zr plays a key role in regards to stability of TFT. © 2012 Taylor & Francis Group, LLC.

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