Strategies to reduce the flammability of organic phase change Materials: A review

Organic Phase Change Materials (oPCMs) are practical and efficient materials in regulating temperature changes, with broad applications including building material, textiles, and food packaging. However, their flammability poses the main challenge to their widespread applications. This review summarizes various approaches to reduce the flammability of oPCMs including incorporation of flame retardants in shape stabilized PCMs and micro encapsulated PCMs, chemical transformations and surface coating, paying particular attentions to the flammability parameters such as limiting oxygen index (LOI), total heat released (THR), peak heat release rate (pHRR) as well as the mechanisms of fire retardancy. Flame-retardant oPCM for practical applications such as plasterboards and fabrics will be highlighted. Further strategies to enhance flame retardant properties of oPCM, such as, incorporation of synergistic flame retardants, chemical modification of PCM (e.g. intrinsically flame-retardant oPCM), have been proposed and commented in the conclusion of this paper.

Automated summary

Organic Phase Change Materials (oPCMs) are widely used in regulating temperature changes, but their flammability remains a major challenge. Various methods such as adding flame retardants, chemical transformations, and surface coating can be used to reduce the flammability. Future research directions include enhancing flame retardant properties through synergistic flame retardants and chemical modifications.