Nanocarbon materials, such as carbon nanotube and graphene, are reckoned as the ideal
reinforcement for composites due to their extraordinary intrinsic properties. However, the …

Copper and copper‐based materials are widely used in power electronics, automobiles,
mechanical manufacturing and high‐tech manufacturing fields such as aerospace …

Flexible electrodes that allow electrical conductance to be maintained during mechanical
deformation are required for the development of wearable electronics. However, flexible …

Electrically conducting fibers and yarns are critical components of future wearable electronic
textile (e-textile) devices such as sensors, antennae, information processors, and energy …

In this paper, systematic molecular dynamics simulations were employed to study
dislocation-graphene interactions in Cu/graphene systems using two carefully selected …

Multilayer graphene (Gr) reinforced high-entropy alloys (HEAs) matrix composite shows
promising prospects in anti-friction and wear-resisting. Nevertheless, a potential …

In-situ formation of appropriate interfacial carbides by matrix-alloying with carbide-forming
elements offers an efficient approach to improve the interfacial bonding of graphene/CuX …

Enhancing the mechanical reliability of metal interconnects is important for achieving highly
reliable flexible/wearable electronic devices. In this study, Ag nanowire and Cu thin-film …

As a crucial tactic for improving the properties of composites, the interfacial modification
manifests some limits to the preservation of structural integrity and the efficiency of …

A promising materials engineering method for improving the strength of crystalline materials
is to add obstacles to dislocation motion that induce interface hardening (IH) or precipitate …