聚酯纤维
双酚A
生化工程
人类健康
化学
生物信息学
双酚
组合化学
有机化学
工作流程
可再生资源
双酚S
可持续生产
雌激素受体
热稳定性
化学合成
化学工业
纳米技术
计算机科学
可再生能源
化工产品
催化作用
化学稳定性
生物技术
计算生物学
工作(物理)
优先次序
生物炼制
作者
Cristiana Margarita,Paula Pierozan,Sathiyaraj Subramaniyan,Andrey Shatskiy,Darius Aryan Pakarinen,Annabelle Fritz,Emma Lundqvist,Victoria Chu,Hampus Hagelin,Ulf Norinder,Minna Hakkarainen,Oskar Karlsson,Helena Lundberg
标识
DOI:10.1038/s41893-025-01672-z
摘要
Abstract Most contemporary chemical processes rely on non-renewable resources and reagents associated with negative impact on environment and human health. As a result, the safe-and-sustainable-by-design (SSbD) framework is launched to guide the innovation towards safe and sustainable materials and chemical products. Bisphenol A (BPA) is a widely used chemical in the production of plastics but known to activate oestrogen receptors and linked by numerous studies to adverse effects on both human health and the environment. Here we demonstrate how SSbD can lead a multidisciplinary study for the identification of non-oestrogenic BPA analogues suitable for incorporation into high-performance polymeric materials. Toxicological evaluation of a library of 172 bisphenols using an in silico model identified 20 promising candidates that are synthesized from renewable lignin-sourced feedstocks via benign dehydrative catalytic routes. Subsequent in vitro assessment of their oestrogen receptor activity identifies bisguaiacol F as optimal BPA analogue, which is incorporated into a polyester with attractive thermal stability and flexibility. This work demonstrates an effective workflow for the discovery of renewable and non-oestrogenic bisphenols by taking advantage of the synergy of synthetic chemistry, toxicology and computational modelling.
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