An abnormal non-incubation effect in femtosecond laser processing of freestanding reduced graphene oxide paper

Ruyu Yan; Lan Jiang; Xin Li; Jie Hu; Xuesong Shi; Peng Ran; Xiaojie Li; Yongfeng Lu

doi:10.1088/1361-6463/aa665f

An abnormal non-incubation effect in femtosecond laser processing of freestanding reduced graphene oxide paper

Ruyu Yan, Lan Jiang, Xin Li, Jie Hu, Xuesong Shi, Peng Ran, Xiaojie Li, Yongfeng Lu

机械与车辆学院

科研成果: 期刊稿件 › 文章 › 同行评审

4 引用（Scopus）

摘要

Femtosecond laser ablation of freestanding reduced graphene oxide (rGO) paper and its mechanisms were investigated. An abnormal phenomenon was discovered: the ablated area remained unchanged for the rGO paper with an increasing number of pulses, which was found to be a general feature for a large range of laser fluences. We also studied femtosecond laser ablation of graphene oxide paper and highly oriented pyrolytic graphite film for comparison. Experimental results indicated that the abnormal phenomenon was unique to the rGO paper. As revealed by a combination of SEM, TEM, XRD and Raman techniques, femtosecond laser nonthermal ablation through rolling up of rGO nanoflakes, induced by the distinctive multi-level layer-by-layer structures and the ultrafast energy relaxation of the rGO paper, were considered to be responsible for the non-incubation effect.

源语言	英语
文章编号	185302
期刊	Journal Physics D: Applied Physics
卷	50
期	18
DOI	https://doi.org/10.1088/1361-6463/aa665f
出版状态	已出版 - 13 4月 2017

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title = "An abnormal non-incubation effect in femtosecond laser processing of freestanding reduced graphene oxide paper",

abstract = "Femtosecond laser ablation of freestanding reduced graphene oxide (rGO) paper and its mechanisms were investigated. An abnormal phenomenon was discovered: the ablated area remained unchanged for the rGO paper with an increasing number of pulses, which was found to be a general feature for a large range of laser fluences. We also studied femtosecond laser ablation of graphene oxide paper and highly oriented pyrolytic graphite film for comparison. Experimental results indicated that the abnormal phenomenon was unique to the rGO paper. As revealed by a combination of SEM, TEM, XRD and Raman techniques, femtosecond laser nonthermal ablation through rolling up of rGO nanoflakes, induced by the distinctive multi-level layer-by-layer structures and the ultrafast energy relaxation of the rGO paper, were considered to be responsible for the non-incubation effect.",

keywords = "femtosecond laser ablation, non-incubation effect, reduced graphene oxide paper",

author = "Ruyu Yan and Lan Jiang and Xin Li and Jie Hu and Xuesong Shi and Peng Ran and Xiaojie Li and Yongfeng Lu",

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T1 - An abnormal non-incubation effect in femtosecond laser processing of freestanding reduced graphene oxide paper

AU - Yan, Ruyu

AU - Jiang, Lan

AU - Li, Xin

AU - Hu, Jie

AU - Shi, Xuesong

AU - Ran, Peng

AU - Li, Xiaojie

AU - Lu, Yongfeng

PY - 2017/4/13

Y1 - 2017/4/13

N2 - Femtosecond laser ablation of freestanding reduced graphene oxide (rGO) paper and its mechanisms were investigated. An abnormal phenomenon was discovered: the ablated area remained unchanged for the rGO paper with an increasing number of pulses, which was found to be a general feature for a large range of laser fluences. We also studied femtosecond laser ablation of graphene oxide paper and highly oriented pyrolytic graphite film for comparison. Experimental results indicated that the abnormal phenomenon was unique to the rGO paper. As revealed by a combination of SEM, TEM, XRD and Raman techniques, femtosecond laser nonthermal ablation through rolling up of rGO nanoflakes, induced by the distinctive multi-level layer-by-layer structures and the ultrafast energy relaxation of the rGO paper, were considered to be responsible for the non-incubation effect.

AB - Femtosecond laser ablation of freestanding reduced graphene oxide (rGO) paper and its mechanisms were investigated. An abnormal phenomenon was discovered: the ablated area remained unchanged for the rGO paper with an increasing number of pulses, which was found to be a general feature for a large range of laser fluences. We also studied femtosecond laser ablation of graphene oxide paper and highly oriented pyrolytic graphite film for comparison. Experimental results indicated that the abnormal phenomenon was unique to the rGO paper. As revealed by a combination of SEM, TEM, XRD and Raman techniques, femtosecond laser nonthermal ablation through rolling up of rGO nanoflakes, induced by the distinctive multi-level layer-by-layer structures and the ultrafast energy relaxation of the rGO paper, were considered to be responsible for the non-incubation effect.

KW - femtosecond laser ablation

KW - non-incubation effect

KW - reduced graphene oxide paper

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An abnormal non-incubation effect in femtosecond laser processing of freestanding reduced graphene oxide paper

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