▎ 摘　　要

Copper matrix composites have extensive application prospects in electronics and electrical engineering because of their excellent functional and mechanical properties. Graphene has excellent properties and a two-dimensional structure, making it an ideal reinforcement material. Compared with other reinforcements such as particles and whiskers, graphene has better performance matching with copper. Moreover, its distribution in the copper matrix can be controlled well, which can significantly improve the comprehensive properties of the composite. Therefore, controlling the distribution of graphene using novel fabrication processes is essential. This review focuses on the configuration of graphene distributed in a copper matrix (uniform configuration, layered configuration, and network configuration) and the corresponding fabrication processes. The effects of different graphene configurations on the properties of various copper matrix composites are discussed. New ideas for graphene configuration design, future development trends, and potential applications of graphene/copper matrix composites with unique configurations are anticipated.