Litcius/Paper detail

A theoretical insight into the curing mechanism of phthalonitrile resins promoted by aromatic amines

Zuowei Chen, Liquan Wang, Jiaping Lin, Lei Du

2021Physical Chemistry Chemical Physics37 citationsDOI

Abstract

High-temperature phthalonitrile resins have a wide range of applications, and understanding their curing mechanism is of great importance for academic research and engineering applications. However, the actual curing mechanism is still elusive. We presented a density functional theory study on the curing mechanism of phthalonitrile resins promoted by aromatic amines using phthalonitrile and aniline as the model compounds. We found that the rate-determining step is the initial nucleophilic addition of amines with nitrile groups on phthalonitrile to generate an amidine intermediate. The amines play a vital role in the H-transfer promoter throughout the curing reaction. The amidine and isoindoline are the critical intermediates, which can readily react with phthalonitrile through 6-membered transition states. The intramolecular cyclization of amidine intermediates is the vital step in forming isoindoline intermediates, which can be significantly promoted by amines. The proposed curing reaction pathways are kinetically more favorable than the previously reported ones, which can account for the formation of triazine, polyisoindoline, and phthalocyanine and provide a molecular-level understanding of the curing reaction.

Topics & Concepts

PhthalonitrileCuring (chemistry)TriazinePhthalocyanineChemistryMechanism (biology)Polymer chemistryPhotochemistryMaterials scienceOrganic chemistryEpistemologyPhilosophyFluorine in Organic ChemistrySynthesis and Reactions of Organic CompoundsSynthesis and properties of polymers