Thermally conductive composite phase change materials with excellent thermal management capability for electronic devices

“…In their study, Han et al. [8] used a cross-linked polymer swelling approach to develop a form-stable composite PCM with an improved TC of 1.28 Wm −1 K −1 .…”

Shape stable composite phase change material with improved thermal conductivity for electrical-to-thermal energy conversion and storage

“…In their study, Han et al. [8] used a cross-linked polymer swelling approach to develop a form-stable composite PCM with an improved TC of 1.28 Wm −1 K −1 .…”

Shape stable composite phase change material with improved thermal conductivity for electrical-to-thermal energy conversion and storage

“…For small space heat dissipation problems, active cooling requires more energy, space and materials to support corresponding heat dissipation facilities. In comparison materials used for passive cooling, such as phase change materials (PCMs), can absorb and release a large amount of latent heat at almost stable temperature points [12], and their excellent heat storage capacity and controllable material shape better match the heat dissipation space of the equipment, achieving low energy consumption and low cost heat absorption and storage, thereby ensuring that equipment can operate within a safe and reasonable temperature range [13][14][15][16].…”

A polyurethane solid-solid composite phase change material based on modified graphene oxide for efficient thermal management

Highly thermal conductive Graphene/Paraffin composite for efficient thermal management of electronics