Fabrication and characterization of film profile engineered ZnO TFTs with discrete gates

Rong Jhe Lyu; Horng-Chih Lin; Tiao Yuan Huang

doi:10.1109/JEDS.2015.2396687

Fabrication and characterization of film profile engineered ZnO TFTs with discrete gates

Rong Jhe Lyu, Horng-Chih Lin^*, Tiao Yuan Huang

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電子研究所

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5 引文斯高帕斯（Scopus）

摘要

By virtue of the film-profile engineering scheme and properly designed device structure, ZnO TFTs with discrete bottom gates and sub-micron channels were fabricated and characterized. In the fabrication, a suspended bridge constructed over the bottom gate is used to tailor the profile of subsequently deposited films. Superior electrical characteristics in terms of ultrahigh ON/OFF current ratio ( $\sim 10^{10 ), steep sub-threshold swing ( $66\sim 108$ mV/dec), and very low off-state leakage current are demonstrated with the fabricated devices. Effects of channel lengths on the device characteristics are also explored. Because of more effective shadowing of the depositing species with a longer suspended bridge, the deposited films become thinner at the central channel. As a result, the device shows more positive turn-on voltage and better subthreshold swing with increasing channel length.

原文	American English
文章編號	7021933
頁（從 - 到）	260-266
頁數	7
期刊	IEEE Journal of the Electron Devices Society
卷	3
發行號	3
DOIs	https://doi.org/10.1109/JEDS.2015.2396687
出版狀態	Published - 1 5月 2015

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10.1109/JEDS.2015.2396687

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title = "Fabrication and characterization of film profile engineered ZnO TFTs with discrete gates",

abstract = "By virtue of the film-profile engineering scheme and properly designed device structure, ZnO TFTs with discrete bottom gates and sub-micron channels were fabricated and characterized. In the fabrication, a suspended bridge constructed over the bottom gate is used to tailor the profile of subsequently deposited films. Superior electrical characteristics in terms of ultrahigh ON/OFF current ratio ( $\sim 10^{10 ), steep sub-threshold swing ( $66\sim 108$ mV/dec), and very low off-state leakage current are demonstrated with the fabricated devices. Effects of channel lengths on the device characteristics are also explored. Because of more effective shadowing of the depositing species with a longer suspended bridge, the deposited films become thinner at the central channel. As a result, the device shows more positive turn-on voltage and better subthreshold swing with increasing channel length.",

keywords = "Metal oxide, ZnO, film profile engineering (FPE), thin-film transistor",

author = "Lyu, {Rong Jhe} and Horng-Chih Lin and Huang, {Tiao Yuan}",

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N2 - By virtue of the film-profile engineering scheme and properly designed device structure, ZnO TFTs with discrete bottom gates and sub-micron channels were fabricated and characterized. In the fabrication, a suspended bridge constructed over the bottom gate is used to tailor the profile of subsequently deposited films. Superior electrical characteristics in terms of ultrahigh ON/OFF current ratio ( $\sim 10^{10 ), steep sub-threshold swing ( $66\sim 108$ mV/dec), and very low off-state leakage current are demonstrated with the fabricated devices. Effects of channel lengths on the device characteristics are also explored. Because of more effective shadowing of the depositing species with a longer suspended bridge, the deposited films become thinner at the central channel. As a result, the device shows more positive turn-on voltage and better subthreshold swing with increasing channel length.

AB - By virtue of the film-profile engineering scheme and properly designed device structure, ZnO TFTs with discrete bottom gates and sub-micron channels were fabricated and characterized. In the fabrication, a suspended bridge constructed over the bottom gate is used to tailor the profile of subsequently deposited films. Superior electrical characteristics in terms of ultrahigh ON/OFF current ratio ( $\sim 10^{10 ), steep sub-threshold swing ( $66\sim 108$ mV/dec), and very low off-state leakage current are demonstrated with the fabricated devices. Effects of channel lengths on the device characteristics are also explored. Because of more effective shadowing of the depositing species with a longer suspended bridge, the deposited films become thinner at the central channel. As a result, the device shows more positive turn-on voltage and better subthreshold swing with increasing channel length.

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Fabrication and characterization of film profile engineered ZnO TFTs with discrete gates

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