The urgent need for ultrahigh thermally conductive materials to keep up with the rapid
development of the electronics industry has led to the exploration of hexagonal boron nitride …

Polymer nanocomposites combine the merits of polymer matrices and the unusual effects of
nanoscale reinforcements and have been recognized as important members of the material …

The demand for thermally conductive but electrically insulating materials has increased
greatly in advanced electronic packaging. To this end, polymer-based composites filled with …

Thermal management plays a notable role in electronics, especially for the emerging
wearable and skin electronics, as the level of integration, multifunction, and miniaturization …

Miniaturized and high‐power‐density 3D electronic devices pose new challenges on
thermal management. Indeed, prompt heat dissipation in electrically insulating packaging is …

Resistance change under mechanical stimuli arouses mass operational heat, damaging the
performance, lifetime, and reliability of stretchable electronic devices, therefore rapid thermal …

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

Recently, soaring developments in microelectronics raise an urgent demand for thermal
management materials to tackle their “overheating” concerns. Polymer nanocomposites are …

Thermally conductive polymer-based composites are extensively used in many fields as
thermal control materials. Their thermal conductivity can be effectively improved via the …

With the advent of the 5G era, electronic systems have become more and more powerful,
miniaturized, integrated, and intelligent. The thermal management of electronic systems …