Sequential lateral crystallization of amorphous silicon on glass by blue laser annealing for high mobility thin-film transistors

Young Hun Jung; Seungpyo Hong; Suhui Lee; Seonghyun Jin; Tae Woong Kim; Yeoungjin Chang; Jin Jang

doi:10.1016/j.tsf.2019.04.023

Sequential lateral crystallization of amorphous silicon on glass by blue laser annealing for high mobility thin-film transistors

Young Hun Jung, Seungpyo Hong, Suhui Lee, Seonghyun Jin, Tae Woong Kim, Yeoungjin Chang, Jin Jang

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

22 Citations (Scopus)

Abstract

We report the thickness effect of amorphous silicon for the polycrystalline silicon (poly-Si) layer laterally crystallized by blue laser annealing (BLA) using 50 μs melting time. The grain size is much larger and full width at half-maximum of Raman intensity is lower compared to those of the poly-Si by excimer laser annealing. It is found that the average width of lateral grain is wider than 3 μm and full width of half maximum of Raman intensity for the BLA poly-Si with an optimum thickness of 90 nm is 3.32 cm ⁻¹ . The p-type poly-Si thin-film transistor with 90 nm exhibits field-effect mobility of 161.91 ± 6.14 cm ² /Vs and subthreshold swing of 227 ± 7 mV/dec.

Original language	English
Pages (from-to)	93-97
Number of pages	5
Journal	Thin Solid Films
Volume	681
DOIs	https://doi.org/10.1016/j.tsf.2019.04.023
Publication status	Published - 1 Jul 2019

Bibliographical note

Publisher Copyright:
© 2019 Elsevier B.V.

Keywords

Blue laser annealing
Grain size
High mobility
Low-temperature polycrystalline silicon
Sequential lateral crystallization
Thin-film transistors

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10.1016/j.tsf.2019.04.023

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title = "Sequential lateral crystallization of amorphous silicon on glass by blue laser annealing for high mobility thin-film transistors",

abstract = " We report the thickness effect of amorphous silicon for the polycrystalline silicon (poly-Si) layer laterally crystallized by blue laser annealing (BLA) using 50 μs melting time. The grain size is much larger and full width at half-maximum of Raman intensity is lower compared to those of the poly-Si by excimer laser annealing. It is found that the average width of lateral grain is wider than 3 μm and full width of half maximum of Raman intensity for the BLA poly-Si with an optimum thickness of 90 nm is 3.32 cm −1 . The p-type poly-Si thin-film transistor with 90 nm exhibits field-effect mobility of 161.91 ± 6.14 cm 2 /Vs and subthreshold swing of 227 ± 7 mV/dec.",

keywords = "Blue laser annealing, Grain size, High mobility, Low-temperature polycrystalline silicon, Sequential lateral crystallization, Thin-film transistors",

author = "Jung, {Young Hun} and Seungpyo Hong and Suhui Lee and Seonghyun Jin and Kim, {Tae Woong} and Yeoungjin Chang and Jin Jang",

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doi = "10.1016/j.tsf.2019.04.023",

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T1 - Sequential lateral crystallization of amorphous silicon on glass by blue laser annealing for high mobility thin-film transistors

AU - Jung, Young Hun

AU - Hong, Seungpyo

AU - Lee, Suhui

AU - Jin, Seonghyun

AU - Kim, Tae Woong

AU - Chang, Yeoungjin

AU - Jang, Jin

PY - 2019/7/1

Y1 - 2019/7/1

N2 - We report the thickness effect of amorphous silicon for the polycrystalline silicon (poly-Si) layer laterally crystallized by blue laser annealing (BLA) using 50 μs melting time. The grain size is much larger and full width at half-maximum of Raman intensity is lower compared to those of the poly-Si by excimer laser annealing. It is found that the average width of lateral grain is wider than 3 μm and full width of half maximum of Raman intensity for the BLA poly-Si with an optimum thickness of 90 nm is 3.32 cm −1 . The p-type poly-Si thin-film transistor with 90 nm exhibits field-effect mobility of 161.91 ± 6.14 cm 2 /Vs and subthreshold swing of 227 ± 7 mV/dec.

AB - We report the thickness effect of amorphous silicon for the polycrystalline silicon (poly-Si) layer laterally crystallized by blue laser annealing (BLA) using 50 μs melting time. The grain size is much larger and full width at half-maximum of Raman intensity is lower compared to those of the poly-Si by excimer laser annealing. It is found that the average width of lateral grain is wider than 3 μm and full width of half maximum of Raman intensity for the BLA poly-Si with an optimum thickness of 90 nm is 3.32 cm −1 . The p-type poly-Si thin-film transistor with 90 nm exhibits field-effect mobility of 161.91 ± 6.14 cm 2 /Vs and subthreshold swing of 227 ± 7 mV/dec.

KW - Blue laser annealing

KW - Grain size

KW - High mobility

KW - Low-temperature polycrystalline silicon

KW - Sequential lateral crystallization

KW - Thin-film transistors

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Sequential lateral crystallization of amorphous silicon on glass by blue laser annealing for high mobility thin-film transistors

Abstract

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Keywords

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