Application and Performance Optimization of Polymer Materials in Flexible Electronic Devices

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Electrical Engineering and Automation

Electrical Engineering and Automation is an international comprehensive professional academic journal of Ivy Publisher, concerning the development of electrical theory and automation on the combination of electrical theory and modern industrial technology. The main focus of the journal is the academic papers and comments of latest power electronics theoretical and technical research improvement in the fields of nature science, engineering technol... [More] Electrical Engineering and Automation is an international comprehensive professional academic journal of Ivy Publisher, concerning the development of electrical theory and automation on the combination of electrical theory and modern industrial technology. The main focus of the journal is the academic papers and comments of latest power electronics theoretical and technical research improvement in the fields of nature science, engineering technology, economy and science, report of latest research result, aiming at providing a good communication platform to transfer, share and discuss the theoretical and technical development of electrical theory development for professionals, scholars and researchers in this field, reflecting the academic front level, promote academic change and foster the rapid expansion of electrical theory and automation application technology.

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Paper Infomation

Application and Performance Optimization of Polymer Materials in Flexible Electronic Devices

Full Text(PDF, 58KB)

Author: Zhiqing Dong

Abstract: Polymer materials have emerged as essential components in flexible electronic devices due to their unique combination of electrical conductivity, mechanical flexibility, and chemical stability. The integration of polymer-based materials in flexible electronics has enabled advancements in displays, wearable sensors, organic transistors, and energy storage devices. However, challenges such as low charge carrier mobility, environmental degradation, and mechanical durability remain significant obstacles to widespread adoption. This paper explores the diverse applications of polymer materials in flexible electronics, highlighting their roles in flexible displays, wearable electronics, sensors, transistors, and energy storage systems. Furthermore, it discusses various performance optimization strategies, including molecular design, doping, interface engineering, and mechanical enhancement. Additionally, advanced fabrication techniques such as solution processing, nanostructuring, and roll-to-roll manufacturing are examined for their potential in enabling large-scale production. By addressing these critical aspects, this study provides insights into the future directions of polymer-based flexible electronics, emphasizing material innovations and processing advancements that will drive the next generation of highly adaptable, durable, and efficient electronic devices.

Keywords: Polymer Materials; Flexible Electronics; Performance Optimization; Wearable Electronics; Organic Transistors; Energy Storage; Fabrication Techniques

References:

[1] M. B A, A. H Y A, Ali A, et al. Synthesis of polymer nanocomposites as optical materials for flexible electronic devices[J]. Surface Innovations,2024,1-26.

[2] Han W Y, Song J H, Jeon J S, et al. Excellent carrier transport materials produced by controlled molecular stacking and their application in flexible organic electronic devices[J]. Journal of Materials Chemistry A,2019.

[3] Xie F. Natural polymer starch-based materials for flexible electronic sensor development: A review of recent progress[J]. Carbohydrate Polymers,2024,337122116.

[4] Gao F, Song J, Teng H, et al. All-polymer ultrathin flexible supercapacitors for electronic skin[J]. Chemical Engineering Journal,2021,405

[5] Science - Materials Science; Data from Korea National University of Transportation Advance Knowledge in Materials Science (Mineralized Soft and Elastic Polymer Dot Hydrogel for a Flexible Self-Powered Electronic Skin Sensor)[J]. Chemicals & Chemistry,2020.

[6] Zhu S, Liu Z, Li W, et al. Research progress of self‐healing polymer materials for flexible electronic devices[J]. Journal of Polymer Science,2023,61(15):1554-1571.

[7] Zong X, Zhang N, Ma X, et al. Polymer-based flexible piezoresistive pressure sensors based on various micro/nanostructures array[J]. Composites Part A,2025,190108648-108648.

[8] Minkyu K, Sung Jun C, Dongho S, et al. Two‐Step Flash‐Light Sintering of Copper‐Based Inkjet‐Printed Patterns onto Polymer Substrates Used in Flexible Electronic Devices[J]. physica status solidi (a),2021,218(16).