Turning refuse plastic into multi-walled carbon nanotube forest

A novel and effective method was devised for synthesizing a vertically aligned carbon nanotube (CNT) forest on a substrate using waste plastic obtained from commercially available water bottles. The advantages of the proposed method are the speed of processing and the use of waste as a raw material....

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Published in	Science and technology of advanced materials Vol. 13; no. 2; p. 025004
Main Authors	Oh, Eugene, Lee, Jaegeun, Jung, Seung-Ho, Cho, Seungho, Kim, Hye-Jin, Lee, Sung-Hyun, Lee, Kun-Hong, Song, Kyong-Hwa, Choi, Chi-Hoon, Han, Do Suck
Format	Journal Article
Language	English
Published	United States Taylor & Francis 01.04.2012 Taylor & Francis Ltd Taylor & Francis Group
Subjects	Carbon Carbon nanotubes Electrons Graphitization Image transmission Microwave Multi wall carbon nanotubes Recycle Refuse plastics Substrates Synthesis Waste disposal Carbon nanotubes Microwave Refuse plastics Recycle
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Abstract	A novel and effective method was devised for synthesizing a vertically aligned carbon nanotube (CNT) forest on a substrate using waste plastic obtained from commercially available water bottles. The advantages of the proposed method are the speed of processing and the use of waste as a raw material. A mechanism for the CNT growth was also proposed. The growth rate of the CNT forest was ∼2.5 μm min −1 . Transmission electron microscopy images indicated that the outer diameters of the CNTs were 20-30 nm on average. The intensity ratio of the G and D Raman bands was 1.27 for the vertically aligned CNT forest. The Raman spectrum showed that the wall graphitization of the CNTs, synthesized via the proposed method was slightly higher than that of commercially available multi-walled carbon nanotubes (MWCNTs). We expect that the proposed method can be easily adapted to the disposal of other refuse materials and applied to MWCNT production industries.
AbstractList	A novel and effective method was devised for synthesizing a vertically aligned carbon nanotube (CNT) forest on a substrate using waste plastic obtained from commercially available water bottles. The advantages of the proposed method are the speed of processing and the use of waste as a raw material. A mechanism for the CNT growth was also proposed. The growth rate of the CNT forest was ~2.5 μm min−1. Transmission electron microscopy images indicated that the outer diameters of the CNTs were 20–30 nm on average. The intensity ratio of the G and D Raman bands was 1.27 for the vertically aligned CNT forest. The Raman spectrum showed that the wall graphitization of the CNTs, synthesized via the proposed method was slightly higher than that of commercially available multi-walled carbon nanotubes (MWCNTs). We expect that the proposed method can be easily adapted to the disposal of other refuse materials and applied to MWCNT production industries. A novel and effective method was devised for synthesizing a vertically aligned carbon nanotube (CNT) forest on a substrate using waste plastic obtained from commercially available water bottles. The advantages of the proposed method are the speed of processing and the use of waste as a raw material. A mechanism for the CNT growth was also proposed. The growth rate of the CNT forest was ∼2.5 μm min −1 . Transmission electron microscopy images indicated that the outer diameters of the CNTs were 20–30 nm on average. The intensity ratio of the G and D Raman bands was 1.27 for the vertically aligned CNT forest. The Raman spectrum showed that the wall graphitization of the CNTs, synthesized via the proposed method was slightly higher than that of commercially available multi-walled carbon nanotubes (MWCNTs). We expect that the proposed method can be easily adapted to the disposal of other refuse materials and applied to MWCNT production industries. A novel and effective method was devised for synthesizing a vertically aligned carbon nanotube (CNT) forest on a substrate using waste plastic obtained from commercially available water bottles. The advantages of the proposed method are the speed of processing and the use of waste as a raw material. A mechanism for the CNT growth was also proposed. The growth rate of the CNT forest was ∼2.5 μm min-1. Transmission electron microscopy images indicated that the outer diameters of the CNTs were 20-30 nm on average. The intensity ratio of the G and D Raman bands was 1.27 for the vertically aligned CNT forest. The Raman spectrum showed that the wall graphitization of the CNTs, synthesized via the proposed method was slightly higher than that of commercially available multi-walled carbon nanotubes (MWCNTs). We expect that the proposed method can be easily adapted to the disposal of other refuse materials and applied to MWCNT production industries. A novel and effective method was devised for synthesizing a vertically aligned carbon nanotube (CNT) forest on a substrate using waste plastic obtained from commercially available water bottles. The advantages of the proposed method are the speed of processing and the use of waste as a raw material. A mechanism for the CNT growth was also proposed. The growth rate of the CNT forest was ∼2.5 μm min . Transmission electron microscopy images indicated that the outer diameters of the CNTs were 20-30 nm on average. The intensity ratio of the G and D Raman bands was 1.27 for the vertically aligned CNT forest. The Raman spectrum showed that the wall graphitization of the CNTs, synthesized via the proposed method was slightly higher than that of commercially available multi-walled carbon nanotubes (MWCNTs). We expect that the proposed method can be easily adapted to the disposal of other refuse materials and applied to MWCNT production industries. A novel and effective method was devised for synthesizing a vertically aligned carbon nanotube (CNT) forest on a substrate using waste plastic obtained from commercially available water bottles. The advantages of the proposed method are the speed of processing and the use of waste as a raw material. A mechanism for the CNT growth was also proposed. The growth rate of the CNT forest was ∼2.5 μm min−1. Transmission electron microscopy images indicated that the outer diameters of the CNTs were 20–30 nm on average. The intensity ratio of the G and D Raman bands was 1.27 for the vertically aligned CNT forest. The Raman spectrum showed that the wall graphitization of the CNTs, synthesized via the proposed method was slightly higher than that of commercially available multi-walled carbon nanotubes (MWCNTs). We expect that the proposed method can be easily adapted to the disposal of other refuse materials and applied to MWCNT production industries.
Author	Jung, Seung-Ho Oh, Eugene Song, Kyong-Hwa Kim, Hye-Jin Choi, Chi-Hoon Han, Do Suck Lee, Jaegeun Cho, Seungho Lee, Sung-Hyun Lee, Kun-Hong
AuthorAffiliation	3 National Center for Nanomaterials Technology (NCNT), Pohang, 790-784, Korea 4 Central Advanced Research and Engineering Institute, Hyundai Motor Company, Uiwang, 437-718, Korea 1 Department of Chemical Engineering, Pohang University of Science and Technology(POSTECH), Pohang, 790-784, Korea 2 Department of Chemical Engineering, University of Michigan, Ann Arbor, MI 48109, USA
AuthorAffiliation_xml	– name: 3 National Center for Nanomaterials Technology (NCNT), Pohang, 790-784, Korea – name: 1 Department of Chemical Engineering, Pohang University of Science and Technology(POSTECH), Pohang, 790-784, Korea – name: 4 Central Advanced Research and Engineering Institute, Hyundai Motor Company, Uiwang, 437-718, Korea – name: 2 Department of Chemical Engineering, University of Michigan, Ann Arbor, MI 48109, USA
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SubjectTerms	Carbon Carbon nanotubes Electrons Graphitization Image transmission Microwave Multi wall carbon nanotubes Recycle Refuse plastics Substrates Synthesis Waste disposal
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Title	Turning refuse plastic into multi-walled carbon nanotube forest
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