Perpendicularly aligned carbon nanotube/olefin composite films for the preparation of graphene nanomaterials

Sanqing Huang; Huijuan Lin; Longbin Qiu; Lingli Zhang; Zhenbo Cai; Tao Chen; Zhibing Yang; Shihe Yang; Huisheng Peng

doi:10.1039/c2jm33009a

Perpendicularly aligned carbon nanotube/olefin composite films for the preparation of graphene nanomaterials

Sanqing Huang, Huijuan Lin, Longbin Qiu, Lingli Zhang, Zhenbo Cai, Tao Chen, Zhibing Yang, Shihe Yang, Huisheng Peng

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

6 Scopus citations

Abstract

There remains a common and critical challenge in the preparation of carbon nanotube (CNT) composite materials, i.e., random dispersion of CNTs in the second phase. Here we have reported a general method to prepare perpendicularly aligned CNT/olefin composite films through a conventional slicing technique. The thickness of a composite film can be accurately controlled from about fifty nanometers to fifty micrometers, and the diameter and density of CNTs may be varied in a wide range as required. In particular, due to the generated defect at the end during the slicing process, the separated CNTs from the composite film have been easily unzipped to produce graphenes in the forms of nanoribbons and nanosheets with a yield of almost 100% under ultrasonic treatment.

Original language	English
Pages (from-to)	16209-16213
Number of pages	5
Journal	Journal of Materials Chemistry
Volume	22
Issue number	32
DOIs	https://doi.org/10.1039/c2jm33009a
State	Published - 28 Aug 2012
Externally published	Yes

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abstract = "There remains a common and critical challenge in the preparation of carbon nanotube (CNT) composite materials, i.e., random dispersion of CNTs in the second phase. Here we have reported a general method to prepare perpendicularly aligned CNT/olefin composite films through a conventional slicing technique. The thickness of a composite film can be accurately controlled from about fifty nanometers to fifty micrometers, and the diameter and density of CNTs may be varied in a wide range as required. In particular, due to the generated defect at the end during the slicing process, the separated CNTs from the composite film have been easily unzipped to produce graphenes in the forms of nanoribbons and nanosheets with a yield of almost 100% under ultrasonic treatment.",

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T1 - Perpendicularly aligned carbon nanotube/olefin composite films for the preparation of graphene nanomaterials

AU - Huang, Sanqing

AU - Lin, Huijuan

AU - Qiu, Longbin

AU - Zhang, Lingli

AU - Cai, Zhenbo

AU - Chen, Tao

AU - Yang, Zhibing

AU - Yang, Shihe

AU - Peng, Huisheng

PY - 2012/8/28

Y1 - 2012/8/28

N2 - There remains a common and critical challenge in the preparation of carbon nanotube (CNT) composite materials, i.e., random dispersion of CNTs in the second phase. Here we have reported a general method to prepare perpendicularly aligned CNT/olefin composite films through a conventional slicing technique. The thickness of a composite film can be accurately controlled from about fifty nanometers to fifty micrometers, and the diameter and density of CNTs may be varied in a wide range as required. In particular, due to the generated defect at the end during the slicing process, the separated CNTs from the composite film have been easily unzipped to produce graphenes in the forms of nanoribbons and nanosheets with a yield of almost 100% under ultrasonic treatment.

AB - There remains a common and critical challenge in the preparation of carbon nanotube (CNT) composite materials, i.e., random dispersion of CNTs in the second phase. Here we have reported a general method to prepare perpendicularly aligned CNT/olefin composite films through a conventional slicing technique. The thickness of a composite film can be accurately controlled from about fifty nanometers to fifty micrometers, and the diameter and density of CNTs may be varied in a wide range as required. In particular, due to the generated defect at the end during the slicing process, the separated CNTs from the composite film have been easily unzipped to produce graphenes in the forms of nanoribbons and nanosheets with a yield of almost 100% under ultrasonic treatment.

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M3 - 文章

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Perpendicularly aligned carbon nanotube/olefin composite films for the preparation of graphene nanomaterials

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