Graphene as advanced applied material in flexible display applications

Research Article
Open access

Graphene as advanced applied material in flexible display applications

Yuye Chen 1 , Yuxiang Ji 2*
  • 1 Lucton School Shanghai    
  • 2 Lucton School Shanghai    
  • *corresponding author Junqian_yu@shanghai-gm.com
Published on 7 November 2023 | https://doi.org/10.54254/2755-2721/23/20230645
ACE Vol.23
ISSN (Print): 2755-273X
ISSN (Online): 2755-2721
ISBN (Print): 978-1-83558-067-7
ISBN (Online): 978-1-83558-068-4

Abstract

Flexible display technology has grown in popularity as a study area in the electronics industry as a result of the quick development of flexible electronics technology. Transparent electrodes, the main element of flexible display technology, are crucial for high resolution, high brightness, low power consumption, and interference resistance. A new kind of transparent electrode material is urgently required because conventional applied transparent electrode materials have issues like expensive cost, difficult preparation, and low dependability. Due to its exceptional performance in terms of transparency, electrical conductivity, and flexible bendability, graphene has gained a much interest as an emerging material. In order to provide guidance on the future development of cutting-edge materials for flexible display applications, this paper investigates the use of graphene in flexible displays. It examines graphene's use as a transparent electrode material and a thin film transistor material in flexible displays, as well as its application prospects and development trends. It is found that graphene has a high transparency of 97.7% and high conductivity, which outperforms the generally used indium tin oxide and copper materials. However, further advancements in the mass production of graphene is necessary for the industrialization of graphene in flexible display applications.

Keywords:

transparent electrodes, graphene, thin-film transistors, flexible displays, organic light-emitting diodes (OLEDs

Chen,Y.;Ji,Y. (2023). Graphene as advanced applied material in flexible display applications. Applied and Computational Engineering,23,152-156.
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References

[1]. Li, X, Cai, W, An, J, Kim, S, Nah, J, Yang, D, ... & Ruoff, R S. 2009. Science, 324(5932), 1312-1314.

[2]. Stankovich, S, Dikin, D A, Dommett, G H, Kohlhaas, K M, Zimney, E J, Stach, E A, ... & Ruoff, R S 2006. Nature, 442(7100), 282-286.

[3]. Smith, R J, King, P J, Lotya, M, Wirtz, C, Khan, U, De, S, ... & Coleman, J N. 2011. Advanced Materials, 23(33), 3944-3948.

[4]. Liu D X, Zhong J Y, Tang B, Cao X H, Xu W, Zhou S X, Shi M Y, Yao R H, Ning H L, Peng J B. 2021. Liquid Crystal and Display, 36(02):217- 228.

[5]. Gao Z W, Xu W, Yao R W, Wei X Q, Zhong J Y, Yang Y X, Fu X, Liu T J, Ning H L, Peng J B. 2022. Liquid Crystal and Display, 37(08)

[6]. Jiang C F, Yi C Y. 2023. Chinese Journal of Electrical Engineering, 43(05): 1739-1754.

[7]. Xu Y W, Zhu P J, Pang J H. 2021. Information Recording Materials, 22(11):30-32.

[8]. Zhang W X. 2020. Henan Science and Technology, 39(27):121-125.

[9]. Qi K L, Zhang F, Pang Z G. 2022. China Adhesives, 31(09):48-54.

[10]. The Research Group of the Institute of Market Economy, Development Research Center of the State Council, Wang W, Deng Y S, Wang R M, Niu S Y, Zhao Y, Liu X. 2022. Management World, 38(11):12-28.

Cite this article

Chen,Y.;Ji,Y. (2023). Graphene as advanced applied material in flexible display applications. Applied and Computational Engineering,23,152-156.

Data availability

The datasets used and/or analyzed during the current study will be available from the authors upon reasonable request.

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About volume

Volume title: Proceedings of the 2023 International Conference on Functional Materials and Civil Engineering

ISBN:978-1-83558-067-7(Print) / 978-1-83558-068-4(Online)
Editor:Bhupesh Kumar
Conference website: https://www.conffmce.org/
Conference date: 26 August 2023
Series: Applied and Computational Engineering
Volume number: Vol.23
ISSN:2755-2721(Print) / 2755-273X(Online)

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References

[1]. Li, X, Cai, W, An, J, Kim, S, Nah, J, Yang, D, ... & Ruoff, R S. 2009. Science, 324(5932), 1312-1314.

[2]. Stankovich, S, Dikin, D A, Dommett, G H, Kohlhaas, K M, Zimney, E J, Stach, E A, ... & Ruoff, R S 2006. Nature, 442(7100), 282-286.

[3]. Smith, R J, King, P J, Lotya, M, Wirtz, C, Khan, U, De, S, ... & Coleman, J N. 2011. Advanced Materials, 23(33), 3944-3948.

[4]. Liu D X, Zhong J Y, Tang B, Cao X H, Xu W, Zhou S X, Shi M Y, Yao R H, Ning H L, Peng J B. 2021. Liquid Crystal and Display, 36(02):217- 228.

[5]. Gao Z W, Xu W, Yao R W, Wei X Q, Zhong J Y, Yang Y X, Fu X, Liu T J, Ning H L, Peng J B. 2022. Liquid Crystal and Display, 37(08)

[6]. Jiang C F, Yi C Y. 2023. Chinese Journal of Electrical Engineering, 43(05): 1739-1754.

[7]. Xu Y W, Zhu P J, Pang J H. 2021. Information Recording Materials, 22(11):30-32.

[8]. Zhang W X. 2020. Henan Science and Technology, 39(27):121-125.

[9]. Qi K L, Zhang F, Pang Z G. 2022. China Adhesives, 31(09):48-54.

[10]. The Research Group of the Institute of Market Economy, Development Research Center of the State Council, Wang W, Deng Y S, Wang R M, Niu S Y, Zhao Y, Liu X. 2022. Management World, 38(11):12-28.

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