Polymer-free patterning of graphene at sub-10-nm scale by low-energy repetitive electron beam

Yann Wen Lan; Wen Hao Chang; Bo Tang Xiao; Bo Wei Liang; Jyun Hong Chen; Pei Hsun Jiang; Lain Jong Li; Ya Wen Su; Yuan Liang Zhong; Chii Dong Chen

doi:10.1002/smll.201401523

Polymer-free patterning of graphene at sub-10-nm scale by low-energy repetitive electron beam

Yann Wen Lan, Wen Hao Chang, Bo Tang Xiao, Bo Wei Liang, Jyun Hong Chen, Pei Hsun Jiang, Lain Jong Li, Ya Wen Su, Yuan Liang Zhong, Chii Dong Chen^*

^*此作品的通信作者

物理學系

研究成果: 雜誌貢獻 › 期刊論文 › 同行評審

13 引文斯高帕斯（Scopus）

摘要

Apolymer-free technique for generating nanopatterns on both synthesized and exfoliated graphene sheets is proposed and demonstrated. A low-energy (5-30 keV) scanning electron beam with variable repetition rates is used to etch suspended and unsuspended graphene sheets on designed locations. The patterning mechanisms involve a defect-induced knockout process in the initial etching stage and a heatinduced curling process in a later stage. Rough pattern edges appear due to inevitable stochastic knockout of carbon atoms or graphene structure imperfection and can be smoothed by thermal annealing. By using this technique, the minimum feature sizes achieved are about 5 nm for suspended and 7 nm for unsuspended graphene. This study demonstrates a polymer-free direct nanopatterning approach for graphene.

原文	英語
頁（從 - 到）	4778-4784
頁數	7
期刊	Small
卷	10
發行號	22
DOIs	https://doi.org/10.1002/smll.201401523
出版狀態	已發佈 - 2014 11月 26

ASJC Scopus subject areas

生物技術
生物材料
化學 (全部)
材料科學(全部)

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10.1002/smll.201401523

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引用此

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title = "Polymer-free patterning of graphene at sub-10-nm scale by low-energy repetitive electron beam",

abstract = "Apolymer-free technique for generating nanopatterns on both synthesized and exfoliated graphene sheets is proposed and demonstrated. A low-energy (5-30 keV) scanning electron beam with variable repetition rates is used to etch suspended and unsuspended graphene sheets on designed locations. The patterning mechanisms involve a defect-induced knockout process in the initial etching stage and a heatinduced curling process in a later stage. Rough pattern edges appear due to inevitable stochastic knockout of carbon atoms or graphene structure imperfection and can be smoothed by thermal annealing. By using this technique, the minimum feature sizes achieved are about 5 nm for suspended and 7 nm for unsuspended graphene. This study demonstrates a polymer-free direct nanopatterning approach for graphene.",

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AU - Lan, Yann Wen

AU - Chang, Wen Hao

AU - Xiao, Bo Tang

AU - Liang, Bo Wei

AU - Chen, Jyun Hong

AU - Jiang, Pei Hsun

AU - Li, Lain Jong

AU - Su, Ya Wen

AU - Zhong, Yuan Liang

AU - Chen, Chii Dong

PY - 2014/11/26

Y1 - 2014/11/26

N2 - Apolymer-free technique for generating nanopatterns on both synthesized and exfoliated graphene sheets is proposed and demonstrated. A low-energy (5-30 keV) scanning electron beam with variable repetition rates is used to etch suspended and unsuspended graphene sheets on designed locations. The patterning mechanisms involve a defect-induced knockout process in the initial etching stage and a heatinduced curling process in a later stage. Rough pattern edges appear due to inevitable stochastic knockout of carbon atoms or graphene structure imperfection and can be smoothed by thermal annealing. By using this technique, the minimum feature sizes achieved are about 5 nm for suspended and 7 nm for unsuspended graphene. This study demonstrates a polymer-free direct nanopatterning approach for graphene.

AB - Apolymer-free technique for generating nanopatterns on both synthesized and exfoliated graphene sheets is proposed and demonstrated. A low-energy (5-30 keV) scanning electron beam with variable repetition rates is used to etch suspended and unsuspended graphene sheets on designed locations. The patterning mechanisms involve a defect-induced knockout process in the initial etching stage and a heatinduced curling process in a later stage. Rough pattern edges appear due to inevitable stochastic knockout of carbon atoms or graphene structure imperfection and can be smoothed by thermal annealing. By using this technique, the minimum feature sizes achieved are about 5 nm for suspended and 7 nm for unsuspended graphene. This study demonstrates a polymer-free direct nanopatterning approach for graphene.

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Polymer-free patterning of graphene at sub-10-nm scale by low-energy repetitive electron beam

摘要

ASJC Scopus subject areas

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