Depolymerization and defunctionalization methods for existing chemicals that can allow circularity, especially for plastics; Design of circular systems with consideration of human health and ecotoxicity, ideally via rational design of benign commodity chemicals; Systematic application of life-cycle analysis, or thinking, and process metrics in developing new manufacturing/synthetic routes; Implementation of machine learning and other big-data methods to drive innovation toward new paradigms of circularity. Views expressed in this editorial are those of the authors and not necessarily the views of the ACS. Views expressed in this editorial are those of the authors and not necessarily the views of the ACS.
This article references 3 other publications.

中文翻译：

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绿色化学：可持续未来的框架

现有化学品的解聚和去官能化方法可以实现循环，尤其是塑料；考虑到人类健康和生态毒性的循环系统设计，最好通过良性商品化学品的合理设计；在开发新的制造/合成路线中，系统地应用生命周期分析或思维和工艺指标；实施机器学习和其他大数据方法，以推动创新朝着新的循环范式发展。本社论中表达的观点是作者的观点，不一定代表 ACS 的观点。本社论中表达的观点是作者的观点，不一定代表 ACS 的观点。
本文引用了其他 3 篇出版物。