Shape-stabilization micromechanisms of form-stable phase change materials-A review

Solid-liquid phase change materials (PCMs) offer great promise in thermal energy storage and management owing to their unique properties such as ability to store and release large quantities of latent heat and small change in volume during phase change process. However, leakage of liquid phase is a major challenge, adversely impacting the performance of solid-liquid PCMs. In recent years, the research focusing the preparation of formstable phase change materials (FSPCMs) to prevent liquid leakage has attracted tremendous attention. In this review, we summarized currently used shape-stabilization micromechanisms, including covalent bonding FSPCMs, core-shell encapsulation FSPCMs, physical adsorption FSPCMs and others. This paper will take the shape-stabilization micromechanisms and the binding forces as the basic starting point, summarize several common shape-stabilization micromechanisms of FSPCMs and conclude current problems and future research directions, so as to provide a theoretical framework for the development of new high-performance FSPCMs in the future.