Graphene transparent conductive films directly grown on quartz substrates by assisted catalysis of Cu nanoparticles

Qing Lu; Liyue Liu; Xiaoling Zhang; Yuan Cheng; Yue Huang; Yongkui Shan; Qingbiao Zhao; Ganghua Zhang; Dezeng Li

doi:10.1007/s10853-019-03621-6

Graphene transparent conductive films directly grown on quartz substrates by assisted catalysis of Cu nanoparticles

Qing Lu
, Liyue Liu
, Xiaoling Zhang
, Yuan Cheng
, Yue Huang
, Yongkui Shan
, Qingbiao Zhao
, Ganghua Zhang
, Dezeng Li^*

^*Corresponding author for this work

School of Chemistry and Molecular Engineering

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

11 Scopus citations

Abstract

Graphene-based transparent conductive films (TCFs) are promising alternative to indium tin oxide owing to their high transmittance and conductivity. Graphene films were directly deposited on quartz substrates by assisted catalysis of Cu nanoparticles in ambient pressure chemical vapor deposition. Growth conditions, including the concentration of Cu nanoparticles as catalyst, flow rate of CH ₄ , temperature and growth time, were systematically investigated to optimize the quality and performance of graphene TCFs. With the optimized growth conditions, the obtained graphene TCFs exhibit good performance with sheet resistance of 2.48 kΩ sq ⁻¹ at transmittance of 82.83%. With this method, graphene TCFs with good performance were obtained without the need of a complex transfer process of graphene, opening a considerable route toward fabricating graphene TCFs on dielectric substrates.

Original language	English
Pages (from-to)	10312-10324
Number of pages	13
Journal	Journal of Materials Science
Volume	54
Issue number	14
DOIs	https://doi.org/10.1007/s10853-019-03621-6
State	Published - 30 Jul 2019

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title = "Graphene transparent conductive films directly grown on quartz substrates by assisted catalysis of Cu nanoparticles",

abstract = " Graphene-based transparent conductive films (TCFs) are promising alternative to indium tin oxide owing to their high transmittance and conductivity. Graphene films were directly deposited on quartz substrates by assisted catalysis of Cu nanoparticles in ambient pressure chemical vapor deposition. Growth conditions, including the concentration of Cu nanoparticles as catalyst, flow rate of CH 4 , temperature and growth time, were systematically investigated to optimize the quality and performance of graphene TCFs. With the optimized growth conditions, the obtained graphene TCFs exhibit good performance with sheet resistance of 2.48 kΩ sq −1 at transmittance of 82.83\%. With this method, graphene TCFs with good performance were obtained without the need of a complex transfer process of graphene, opening a considerable route toward fabricating graphene TCFs on dielectric substrates.",

author = "Qing Lu and Liyue Liu and Xiaoling Zhang and Yuan Cheng and Yue Huang and Yongkui Shan and Qingbiao Zhao and Ganghua Zhang and Dezeng Li",

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T1 - Graphene transparent conductive films directly grown on quartz substrates by assisted catalysis of Cu nanoparticles

AU - Lu, Qing

AU - Liu, Liyue

AU - Zhang, Xiaoling

AU - Cheng, Yuan

AU - Huang, Yue

AU - Shan, Yongkui

AU - Zhao, Qingbiao

AU - Zhang, Ganghua

AU - Li, Dezeng

PY - 2019/7/30

Y1 - 2019/7/30

N2 - Graphene-based transparent conductive films (TCFs) are promising alternative to indium tin oxide owing to their high transmittance and conductivity. Graphene films were directly deposited on quartz substrates by assisted catalysis of Cu nanoparticles in ambient pressure chemical vapor deposition. Growth conditions, including the concentration of Cu nanoparticles as catalyst, flow rate of CH 4 , temperature and growth time, were systematically investigated to optimize the quality and performance of graphene TCFs. With the optimized growth conditions, the obtained graphene TCFs exhibit good performance with sheet resistance of 2.48 kΩ sq −1 at transmittance of 82.83%. With this method, graphene TCFs with good performance were obtained without the need of a complex transfer process of graphene, opening a considerable route toward fabricating graphene TCFs on dielectric substrates.

AB - Graphene-based transparent conductive films (TCFs) are promising alternative to indium tin oxide owing to their high transmittance and conductivity. Graphene films were directly deposited on quartz substrates by assisted catalysis of Cu nanoparticles in ambient pressure chemical vapor deposition. Growth conditions, including the concentration of Cu nanoparticles as catalyst, flow rate of CH 4 , temperature and growth time, were systematically investigated to optimize the quality and performance of graphene TCFs. With the optimized growth conditions, the obtained graphene TCFs exhibit good performance with sheet resistance of 2.48 kΩ sq −1 at transmittance of 82.83%. With this method, graphene TCFs with good performance were obtained without the need of a complex transfer process of graphene, opening a considerable route toward fabricating graphene TCFs on dielectric substrates.

UR - https://www.scopus.com/pages/publications/85064540452

U2 - 10.1007/s10853-019-03621-6

DO - 10.1007/s10853-019-03621-6

M3 - 文章

AN - SCOPUS:85064540452

SN - 0022-2461

VL - 54

SP - 10312

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JO - Journal of Materials Science

JF - Journal of Materials Science

IS - 14

ER -

Graphene transparent conductive films directly grown on quartz substrates by assisted catalysis of Cu nanoparticles

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