Self-assembled thymol-betaine co-crystals with controlled release and hygroscopic properties as green preservatives for aflatoxin prevention.

Mycotoxins are representative contaminants causing food losses and food safety problems worldwide. Thymol can effectively inhibit pathogen infestation and aflatoxin accumulation during grain storage, but high volatility limits its application. Here, a thymol-betaine co-crystal system was synthesized through grinding-induced self-assembly. The THY-TMG co-crystal exhibited excellent thermal stability with melting point of 91.2 °C owing to abundant intermolecular interactions. Remarkably, after 15 days at 30 °C, the release rate of thymol from co-crystal was only 55%, far surpassing that of pure thymol. Notably, the co-crystal demonstrated the ability to bind H 2 O in the environment while controlling the release of thymol, essentially acting as a desiccant. Moreover, the co-crystals effectively inhibited the growth of Aspergillus flavus and the biosynthesis of aflatoxin B 1. In practical terms, the THY-TMG co-crystal was successful in preventing AFB 1 contamination and nutrients loss in peanuts, thereby prolonging their shelf-life under conditions of 28 °C and 70% RH. • Crystal engineering is an emerging technology for extending the shelf life of food. • A novel THY-TMG co-crystal was synthesized by grinding induced self-assembly. • THY-TMG have excellent controlled release and hygroscopic properties. • THY-TMG significantly inhibited the growth and AFB 1 biosynthesis of A. flavus. • THY-TMG prevented AFB 1 contamination and nutrient loss in long term storage of peanuts. [ABSTRACT FROM AUTHOR]