Machine learning enables polymer cloud-point engineering via inverse design

November 21, 2018 Β· Declared Dead Β· πŸ› npj Computational Materials

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Authors Jatin N. Kumar, Qianxiao Li, Karen Y. T. Tang, Tonio Buonassisi, Anibal L. Gonzalez-Oyarce, Jun Ye arXiv ID 1812.11212 Category cond-mat.soft Cross-listed cond-mat.mtrl-sci, cs.LG, physics.comp-ph, stat.ML Citations 76 Venue npj Computational Materials Last Checked 3 months ago
Abstract
Inverse design is an outstanding challenge in disordered systems with multiple length scales such as polymers, particularly when designing polymers with desired phase behavior. We demonstrate high-accuracy tuning of poly(2-oxazoline) cloud point via machine learning. With a design space of four repeating units and a range of molecular masses, we achieve an accuracy of 4 Β°C root mean squared error (RMSE) in a temperature range of 24-90 Β°C, employing gradient boosting with decision trees. The RMSE is >3x better than linear and polynomial regression. We perform inverse design via particle-swarm optimization, predicting and synthesizing 17 polymers with constrained design at 4 target cloud points from 37 to 80 Β°C. Our approach challenges the status quo in polymer design with a machine learning algorithm, that is capable of fast and systematic discovery of new polymers.
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