Research Progress on Graphene-Based Composites for High-Speed 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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Research Progress on Graphene-Based Composites for High-Speed Electronic Devices

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Author: Shenglan Fang

Abstract: The rapid advancement of high-speed electronic devices has driven the need for new materials that can meet the demands for higher performance, miniaturization, and energy efficiency. Among these materials, graphene has garnered significant attention due to its exceptional electrical, thermal, and mechanical properties. This paper reviews the research progress on graphene-based composites and their application in high-speed electronics, focusing on the material's unique characteristics and its potential to enhance the performance of electronic devices. The paper examines various graphene-based composite materials, including graphene/polymer, graphene/metal, and graphene/ceramic composites, highlighting their fabrication methods, functionalization strategies, and integration with other materials. Moreover, the paper explores the critical challenges related to scalability, interface compatibility, and integration with existing semiconductor processes. In addition, performance evaluation methodologies and reliability assessments are discussed in the context of electrical, thermal, and mechanical properties. Despite the promising potential of graphene-based composites, challenges such as cost-effective large-scale production, material dispersion, and interface engineering remain. The review concludes by offering insights into future directions for graphene-based materials in high-speed electronic devices, emphasizing the need for further research into scalable manufacturing techniques and functionalization strategies to overcome these challenges.

Keywords: Graphene-Based Composites; High-Speed Electronics; Electrical Conductivity; Thermal Conductivity; Mechanical Properties; Interface Engineering; Fabrication Techniques; Reliability, Scalability

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