Electronic Conductivity in Metal-Graphene Composites: The Role of Disordered Carbon Structures, Defects, and Impurities

April 12, 2024

Journal Article

Electronic Conductivity in Metal-Graphene Composites: The Role of Disordered Carbon Structures, Defects, and Impurities

Abstract

This study explores the transport properties of aluminum-carbon composite material via ab initio methods. Interfacial and electronic dynamics of the aluminum-graphene interface structure were investigated using models of amorphous graphene added to an aluminum matrix. We examine the impact on electronic conduction caused by the presence of nitrogen impurities within the interfacial amorphous graphene layer.

Published: April 12, 2024

Citation

Nepal K., C. Ugwumadu, A. Gautam, K.S. Kappagantula, and D. Drabold. 2024. Electronic Conductivity in Metal-Graphene Composites: The Role of Disordered Carbon Structures, Defects, and Impurities. Journal of Physics: Materials 7, no. 2:Art. No. 025003. PNNL-SA-192067. doi:10.1088/2515-7639/ad261a

Research topics

Solid Phase Processing

PNNL

Electronic Conductivity in Metal-Graphene Composites: The Role of Disordered Carbon Structures, Defects, and Impurities

Abstract

Citation

Research topics

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