Litcius/Paper detail

Raw materials, preparation methods, flame retardant properties and applications of bio-based flame retardant polyurethanes: Research progress and challenges

Limin Gu, Ziyan Ren, Shuai Li, Renjie Song, Haixia Wu, Linya Zhang, Xinwei Liu, Fengxia Sun

2025European Polymer Journal19 citationsDOIOpen Access PDF

Abstract

Bio-based flame retardant polyurethane (BFRPU) is a green polymer functional material made from biomass. It retains the excellent properties of traditional flame-retardant polyurethane materials while possessing the sustainability and environmental protection characteristics of bio-based materials. In this paper, various types of bio-based raw materials for the preparation of flame-retardant polyurethanes are reviewed, including bio-based isocyanates, bio-based polyols, bio-based flame retardants, which are specifically related to polysaccharides, lignin, vegetable oils, and agricultural wastes, etc., and the characteristics and advantages of the biomass raw materials are analyzed in depth. The preparation process of various advanced bio-based flame retardant polyurethanes is discussed, the flame retardant properties of various bio-based flame retardants are reviewed, and the typical applications of bio-based flame retardant polyurethanes in different fields are listed, to provide practical guidance and theoretical insights for the researchers who are dedicated to the development of all-bio-based polyurethane materials. By systematically sorting out the current research focuses and comprehensively analyzing the challenges and problems, it is expected to provide researchers with a clear research idea so that they can more effectively grasp the research direction in future research work, and thus promote technological breakthroughs, innovative development, and practical applications of all-biobased polyurethane materials.

Topics & Concepts

Fire retardantMaterials sciencePolymer scienceRaw materialComposite materialOrganic chemistryChemistryFlame retardant materials and propertiesPolymer composites and self-healingCarbon dioxide utilization in catalysis