Growth mechanism and kinetics of vertically aligned carbon nanotube arrays

Growth mechanism and kinetics of vertically aligned carbon nanotube arrays

Abstract Carbon nanotubes (CNTs) exhibit excellent mechanical, electrical, thermal, and chemical properties and show promising application potentials in numerous fields. Among different types of CNTs, vertically aligned CNT arrays (VACNTs) exhibit more superiors due to their good alignment, controll...

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Main Authors: Qingxiong Liu, Xiaofei Shi, Qinyuan Jiang, Run Li, Sheng Zhong, Rufan Zhang
Format: Article
Language:English
Published: Wiley 2021-08-01
Series:EcoMat
Subjects:
growth kinetics
preparation optimization
vertically aligned CNT arrays
Online Access:https://doi.org/10.1002/eom2.12118
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spelling doaj-0ad531f117f54e7e8186c8d7fa1ba1682021-08-20T05:32:18ZengWileyEcoMat2567-31732021-08-0134n/an/a10.1002/eom2.12118Growth mechanism and kinetics of vertically aligned carbon nanotube arraysQingxiong Liu0Xiaofei Shi1Qinyuan Jiang2Run Li3Sheng Zhong4Rufan Zhang5Department of Chemical Engineering, Beijing Key Laboratory of Green Chemical Reaction Engineering and Technology Tsinghua University Beijing ChinaDepartment of Chemical Engineering, Beijing Key Laboratory of Green Chemical Reaction Engineering and Technology Tsinghua University Beijing ChinaDepartment of Chemical Engineering, Beijing Key Laboratory of Green Chemical Reaction Engineering and Technology Tsinghua University Beijing ChinaDepartment of Chemical Engineering, Beijing Key Laboratory of Green Chemical Reaction Engineering and Technology Tsinghua University Beijing ChinaDepartment of Chemical Engineering, Beijing Key Laboratory of Green Chemical Reaction Engineering and Technology Tsinghua University Beijing ChinaDepartment of Chemical Engineering, Beijing Key Laboratory of Green Chemical Reaction Engineering and Technology Tsinghua University Beijing ChinaAbstract Carbon nanotubes (CNTs) exhibit excellent mechanical, electrical, thermal, and chemical properties and show promising application potentials in numerous fields. Among different types of CNTs, vertically aligned CNT arrays (VACNTs) exhibit more superiors due to their good alignment, controllable structures and morphologies, and easy mass‐production, and so forth. During the past years, extensive efforts were put into the controlled synthesis of VACNTs with desired structures and morphologies. Among these efforts, it should be noted that, it is of significant importance to improve the array lengths of VACNTs, especially for the fabrication of VACNTs‐based fibers, transparent flexible films, and other functional materials, and so forth. However, it still remains a big challenge to synthesize VACNTs with length over centimeters. In this review, we summarize the growth mechanism, kinetics, growth factors of VACNTs, and the strategies for how to improve their array lengths. Finally, we also propose our outlook on the future development of VACNTs.https://doi.org/10.1002/eom2.12118growth kineticspreparation optimizationvertically aligned CNT arrays
collection DOAJ
language English
format Article
sources DOAJ
author Qingxiong Liu
Xiaofei Shi
Qinyuan Jiang
Run Li
Sheng Zhong
Rufan Zhang
spellingShingle Qingxiong Liu
Xiaofei Shi
Qinyuan Jiang
Run Li
Sheng Zhong
Rufan Zhang
Growth mechanism and kinetics of vertically aligned carbon nanotube arrays
EcoMat
growth kinetics
preparation optimization
vertically aligned CNT arrays
author_facet Qingxiong Liu
Xiaofei Shi
Qinyuan Jiang
Run Li
Sheng Zhong
Rufan Zhang
author_sort Qingxiong Liu
title Growth mechanism and kinetics of vertically aligned carbon nanotube arrays
title_short Growth mechanism and kinetics of vertically aligned carbon nanotube arrays
title_full Growth mechanism and kinetics of vertically aligned carbon nanotube arrays
title_fullStr Growth mechanism and kinetics of vertically aligned carbon nanotube arrays
title_full_unstemmed Growth mechanism and kinetics of vertically aligned carbon nanotube arrays
title_sort growth mechanism and kinetics of vertically aligned carbon nanotube arrays
publisher Wiley
series EcoMat
issn 2567-3173
publishDate 2021-08-01
description Abstract Carbon nanotubes (CNTs) exhibit excellent mechanical, electrical, thermal, and chemical properties and show promising application potentials in numerous fields. Among different types of CNTs, vertically aligned CNT arrays (VACNTs) exhibit more superiors due to their good alignment, controllable structures and morphologies, and easy mass‐production, and so forth. During the past years, extensive efforts were put into the controlled synthesis of VACNTs with desired structures and morphologies. Among these efforts, it should be noted that, it is of significant importance to improve the array lengths of VACNTs, especially for the fabrication of VACNTs‐based fibers, transparent flexible films, and other functional materials, and so forth. However, it still remains a big challenge to synthesize VACNTs with length over centimeters. In this review, we summarize the growth mechanism, kinetics, growth factors of VACNTs, and the strategies for how to improve their array lengths. Finally, we also propose our outlook on the future development of VACNTs.
topic growth kinetics
preparation optimization
vertically aligned CNT arrays
url https://doi.org/10.1002/eom2.12118
work_keys_str_mv AT qingxiongliu growthmechanismandkineticsofverticallyalignedcarbonnanotubearrays
AT xiaofeishi growthmechanismandkineticsofverticallyalignedcarbonnanotubearrays
AT qinyuanjiang growthmechanismandkineticsofverticallyalignedcarbonnanotubearrays
AT runli growthmechanismandkineticsofverticallyalignedcarbonnanotubearrays
AT shengzhong growthmechanismandkineticsofverticallyalignedcarbonnanotubearrays
AT rufanzhang growthmechanismandkineticsofverticallyalignedcarbonnanotubearrays
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