Simultaneous activation and crystallization by low-temperature microwave annealing for improved quality of amorphous silicon thin-film transistors

Yu Lun Lu; Yao Jen Lee; Tien-Sheng Chao

doi:10.1149/2.003201ssl

Simultaneous activation and crystallization by low-temperature microwave annealing for improved quality of amorphous silicon thin-film transistors

Yu Lun Lu, Yao Jen Lee, Tien-Sheng Chao

Department of Electrophysics

Research output: Contribution to journal › Article › peer-review

4 Scopus citations

Abstract

In this study, activation and crystallization in short channel amorphous Si TFTs were demonstrated using a novelmicrowave annealing (MWA) technique. Both low-temperature MWA and rapid thermal annealing (RTA) were compared to study the dopant activation level. We successfully activated the source/drain region, improved the electronic mobility and suppressed the short-channel effects using low temperatureMWA. This can reduce the annealing temperature and processing time below that of solid phase crystallization (SPC). This technique is promising for realizing a high utility rate of AM-LCDs with low cost.

Original language	English
Journal	ECS Solid State Letters
Volume	1
Issue number	1
DOIs	https://doi.org/10.1149/2.003201ssl
State	Published - 1 Dec 2012

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abstract = "In this study, activation and crystallization in short channel amorphous Si TFTs were demonstrated using a novelmicrowave annealing (MWA) technique. Both low-temperature MWA and rapid thermal annealing (RTA) were compared to study the dopant activation level. We successfully activated the source/drain region, improved the electronic mobility and suppressed the short-channel effects using low temperatureMWA. This can reduce the annealing temperature and processing time below that of solid phase crystallization (SPC). This technique is promising for realizing a high utility rate of AM-LCDs with low cost.",

author = "Lu, {Yu Lun} and Lee, {Yao Jen} and Tien-Sheng Chao",

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AU - Lu, Yu Lun

AU - Lee, Yao Jen

AU - Chao, Tien-Sheng

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N2 - In this study, activation and crystallization in short channel amorphous Si TFTs were demonstrated using a novelmicrowave annealing (MWA) technique. Both low-temperature MWA and rapid thermal annealing (RTA) were compared to study the dopant activation level. We successfully activated the source/drain region, improved the electronic mobility and suppressed the short-channel effects using low temperatureMWA. This can reduce the annealing temperature and processing time below that of solid phase crystallization (SPC). This technique is promising for realizing a high utility rate of AM-LCDs with low cost.

AB - In this study, activation and crystallization in short channel amorphous Si TFTs were demonstrated using a novelmicrowave annealing (MWA) technique. Both low-temperature MWA and rapid thermal annealing (RTA) were compared to study the dopant activation level. We successfully activated the source/drain region, improved the electronic mobility and suppressed the short-channel effects using low temperatureMWA. This can reduce the annealing temperature and processing time below that of solid phase crystallization (SPC). This technique is promising for realizing a high utility rate of AM-LCDs with low cost.

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VL - 1

JO - ECS Solid State Letters

JF - ECS Solid State Letters

IS - 1

ER -

Simultaneous activation and crystallization by low-temperature microwave annealing for improved quality of amorphous silicon thin-film transistors

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