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Pine needle-like hierarchical copper foam-based high-performance phase . . . In summary, this work successfully developed Cu foam-based phase change composites with a pine needle-like structure, overcoming multiple challenges traditional PCMs face in practical applications, including leakage risks, poor light absorption efficiency, and limited thermal conductivity
Form-Stable Composite Phase Change Materials Based on Porous Copper . . . In this work, new form-stable solar thermal storage materials by impregnating paraffin PCMs within porous copper–graphene (G–Cu) heterostructures were designed, which integrated high thermal conductivity, high solar energy absorption, and anti-leakage properties
Achieving Efficient Solar Energy Harvesting and Storage through Phase . . . With only 24 wt% filler content, the thermal conductivity of the composite PCM increases from 0 2 to 5 3 W m·K, achieving 94% ultraviolet–visible-near infrared (UV–Vis–NIR) absorptivity Meanwhile, the latent heat remains 176 J g −1, surpassing similar materials in performance