The integrated circuits industry has been continuously producing microelectronic
components with ever higher integration level, packaging density, and power density, which …

Since the discovery of graphene in 2004, investigation concerning the novel performances
of 2D nanosheets embedded polymer composites have grown rapidly in various fields. In …

Electronic devices generate heat during operation and require efficient thermal
management to extend the lifetime and prevent performance degradation. Featured by its …

With the development of science and technology, microelectronic components have evolved
to become increasingly integrated and miniaturized. As a result, thermal management …

Nanocomposites, multiphase solid materials with at least one nanoscaled component, have
been attracting ever‐increasing attention because of their unique properties. Graphene is an …

Excellent through‐plane thermally conductive composites are highly demanded for efficient
heat dissipation. Giant sheets have large crystalline domain and significantly reduce …

As a material possessing extremely high thermal conductivity, graphene has been
considered as the ultimate filler for fabrication of highly thermally conductive polymer …

Composite materials with carbon nanotube and graphene additives have long been
considered as exciting prospects among nanotechnology applications. However, after …

Highlights Lamellar-structured graphene aerogels with vertically aligned and closely
stacked high-quality graphene lamellae are fabricated. The superior thermally conductive …

Efficient thermal energy harvesting using phase‐change materials (PCMs) has great
potential for cost‐effective thermal management and energy storage applications. However …