Machine intelligence-accelerated discovery of all-natural plastic substitutes

人工智能 机器人 机器人学 工作流程 计算机科学 机器学习 数据库
作者
Tianle Chen,Zhenqian Pang,Shuaiming He,Yang Li,Snehi Shrestha,Joshua M. Little,Haochen Yang,Tsai‐Chun Chung,Jiayue Sun,Hayden Christopher Whitley,I‐Chi Lee,Taylor J. Woehl,Teng Li,Liangbing Hu,Po‐Yen Chen
出处
期刊:Nature Nanotechnology [Nature Portfolio]
卷期号:19 (6): 782-791 被引量:77
标识
DOI:10.1038/s41565-024-01635-z
摘要

Abstract One possible solution against the accumulation of petrochemical plastics in natural environments is to develop biodegradable plastic substitutes using natural components. However, discovering all-natural alternatives that meet specific properties, such as optical transparency, fire retardancy and mechanical resilience, which have made petrochemical plastics successful, remains challenging. Current approaches still rely on iterative optimization experiments. Here we show an integrated workflow that combines robotics and machine learning to accelerate the discovery of all-natural plastic substitutes with programmable optical, thermal and mechanical properties. First, an automated pipetting robot is commanded to prepare 286 nanocomposite films with various properties to train a support-vector machine classifier. Next, through 14 active learning loops with data augmentation, 135 all-natural nanocomposites are fabricated stagewise, establishing an artificial neural network prediction model. We demonstrate that the prediction model can conduct a two-way design task: (1) predicting the physicochemical properties of an all-natural nanocomposite from its composition and (2) automating the inverse design of biodegradable plastic substitutes that fulfils various user-specific requirements. By harnessing the model’s prediction capabilities, we prepare several all-natural substitutes, that could replace non-biodegradable counterparts as exhibiting analogous properties. Our methodology integrates robot-assisted experiments, machine intelligence and simulation tools to accelerate the discovery and design of eco-friendly plastic substitutes starting from building blocks taken from the generally-recognized-as-safe database.
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