Litcius/Paper detail

Sustainable cycloaliphatic polyurethanes: from synthesis to applications

Agathe Mouren, Luc Avérous

2022Chemical Society Reviews144 citationsDOIOpen Access PDF

Abstract

, plastic waste and biobased resources from biomass. Consequently, various sustainable building blocks are available to develop new renewable macromolecular architectures such as aromatics, linear aliphatics and cycloaliphatics. Meanwhile, the relationship between the chemical structures of these building blocks and properties of the final PUs can be determined. For instance, aromatic building blocks are remarkable to endow materials with rigidity, hydrophobicity, fire resistance, chemical and thermal stability, whereas acyclic aliphatics endow them with oxidation and UV light resistance, flexibility and transparency. Cycloaliphatics are very interesting as they combine most of the advantages of linear aliphatic and aromatic compounds. This original and unique review presents a comprehensive overview of the synthesis of sustainable cycloaliphatic PUs using various renewable products such as biobased terpenes, carbohydrates, fatty acids and cholesterol and/or plastic waste. Herein, we summarize the chemical modification of the main sustainable cycloaliphatic feedstocks, synthesis of PUs using these building blocks and their corresponding properties and subsequently present their major applications in hot-topic fields, including building, transportation, packaging and biomedicine.

Topics & Concepts

Organic chemistryTerpeneChemistryRenewable energyPolymer scienceMaterials scienceEngineeringElectrical engineeringPolymer composites and self-healingCarbon dioxide utilization in catalysisLignin and Wood Chemistry