Functional phase change materials (PCMs) capable of reversibly storing and releasing tremendous thermal energy during the isothermal phase change process have recently received tremendous attention in interdisciplinary applications. The smart integration of PCMs with functional supporting materials enables multiple cutting-edge interdisciplinary applications, including optical, electrical, magnetic, acoustic, medical, mechanical, and catalytic disciplines etc. Herein, we systematically discuss thermal storage mechanism, thermal transfer mechanism, and energy conversion mechanism, and summarize the state-of-the-art advances in interdisciplinary applications of PCMs. In particular, the applications of PCMs in acoustic, mechanical, and catalytic disciplines are still in their infancy. Simultaneously, in-depth insights into the correlations between microscopic structures and thermophysical properties of composite PCMs are revealed. Finally, current challenges and future prospects are also highlighted according to the up-to-date interdisciplinary applications of PCMs. This review aims to arouse broad research interest in the interdisciplinary community and provide constructive references for exploring next generation advanced multifunctional PCMs for interdisciplinary applications, thereby facilitating their major breakthroughs in both fundamental researches and commercial applications.

Phase Change Thermal Storage Materials for Interdisciplinary Applications.

Heat storage technology is critical for solar thermal utilization and waste heat utilization. Phase change heat storage has gotten a lot of attention in recent years due to its high energy storage density. Nevertheless, phase change materials (PCMs) also have problems such as leakage, corrosion, and volume change during the phase change process. Ceramic-based materials with excellent corrosion resistance, good wettability to PCMs, and high thermal conductivity can efficiently compensate for the above drawbacks. Most importantly, ceramic-based composite phase change materials (CPCMs) can simultaneously utilize the latent heat of phase change materials and the sensible heat of ceramic-based materials to achieve high heat storage density. This paper systematically summarizes the preparation, characterization, and application of ceramic-based CPCMs. Firstly, the types, properties, advantages, and disadvantages of ceramic heat storage materials and PCMs are introduced, respectively. Then, the necessity of the composite of ceramic materials and PCMs is proposed. After that, the preparation methods and properties of ceramic-based molten salt, organic, and metal CPCMs are analyzed. Moreover, their applications in waste heat recovery, thermal management for buildings, solar thermal energy storage, and electronic heat dissipation are introduced. Finally, the existing problem and optimization direction of ceramic-based CPCMs are further discussed. 

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High thermal conductivity and high energy density compatible latent heat thermal energy storage enabled by porous AlN ceramics composites

Bamboo derived SiC ceramics-phase change composites for efficient, rapid, and compact solar thermal energy storage

Bifunctional biomorphic SiC ceramics embedded molten salts for ultrafast thermal and solar energy storage

Nacre-like ceramics-based phase change composites for concurrent efficient solar-to-thermal conversion and rapid energy storage