Structure-aware graph neural network based deep transfer learning framework for enhanced predictive analytics on diverse materials datasets

Author:

Gupta VishuORCID,Choudhary KamalORCID,DeCost BrianORCID,Tavazza FrancescaORCID,Campbell CarelynORCID,Liao Wei-keng,Choudhary Alok,Agrawal AnkitORCID

Abstract

AbstractModern data mining methods have demonstrated effectiveness in comprehending and predicting materials properties. An essential component in the process of materials discovery is to know which material(s) will possess desirable properties. For many materials properties, performing experiments and density functional theory computations are costly and time-consuming. Hence, it is challenging to build accurate predictive models for such properties using conventional data mining methods due to the small amount of available data. Here we present a framework for materials property prediction tasks using structure information that leverages graph neural network-based architecture along with deep-transfer-learning techniques to drastically improve the model’s predictive ability on diverse materials (3D/2D, inorganic/organic, computational/experimental) data. We evaluated the proposed framework in cross-property and cross-materials class scenarios using 115 datasets to find that transfer learning models outperform the models trained from scratch in 104 cases, i.e., ≈90%, with additional benefits in performance for extrapolation problems. We believe the proposed framework can be widely useful in accelerating materials discovery in materials science.

Funder

U.S. Department of Commerce

U.S. Department of Energy

Publisher

Springer Science and Business Media LLC

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