As the prospective carbon materials, graphene oxide (GO) and carbon nanotubes (CNTs)
have attracted extensive attention in the fabrication of copper matrix composites (CMCs), but …

Perovskite solar cells (PSCs) exhibit sufficient technological efficiency and economic
competitiveness. However, their poor stability and scalability are crucial factors limiting their …

In order to develop B 4 C/Al composites with good strength-toughness balance, nanocarbon
hybrid-reinforced B 4 C/Al composites with obvious laminar structure were fabricated by the …

The thermal runaway caused by poor thermal management of batteries is one of the main
challenges being faced by electric vehicles (EVs). An energy-saving, passive method for …

Diamond/metal composites have attracted much attention due to their excellent thermal
conductivity (TC) and low coefficient of thermal expansion (CTE). This paper introduces two …

To overcome the strength-ductility trade-off dilemma, herein we propose a hybrid in-situ/ex-
situ reinforced aluminum matrix composite to achieve a uniform dispersion of reinforcements …

Diamond/copper composite coating is promising for wear-resistant applications, owing to the
extreme hardness of the diamond reinforcement. Ti-coated diamond/copper composite …

In this work, we propose a hybrid approach to solve the challenge of balancing strength and
ductility in aluminum (Al) matrix composites. While some elements of our approach have …

In the present work, the thermal conductivity and thermal expansion coefficients of a new
morphology of Ni/graphene composites are studied by molecular dynamics. The matrix of …

Cu/diamond composite is a promising thermal management material for heat dissipation of
high-power electronic devices. Heat transfer models for a Cu-B/diamond composite with …