Shape‐Stabilized Phase Change Materials Based on Stearic Acid and Mesoporous Hollow SiO2 Microspheres (SA/SiO2) for Thermal Energy Storage

The development of solar energy conversion and storage technologies has been attracting considerable attention in recent years. In this paper, a novel shape‐stabilized phase change material (SSPCM) based on stearic acid (SA) and mesoporous hollow SiO 2 microspheres (SA/SiO 2 ) was synthesized by an impregnating method. The mesoporous silica microspheres with an additional hollow cavity not only provide high loading capacity but also favor the free crystallization of SA, which is confined in the hollow microspheres by interfacial interaction and capillary action. There is no leakage from the obtained SSPCMs even if the temperature exceeds the melting point of SA. The SA/SiO 2 PCM with 70 wt.‐% of SA exhibits high latent heat (reaching up to 135.3 J g –1 ), and its related thermal conductivity is 0.56 W mK –1 , which was enhanced by 56 % relative to that of pure SA. Moreover, the SA/SiO 2 composites show excellent thermal stability, which is beneficial for latent heat thermal energy storage (LHTES).