An automatic descriptors recognizer customized for materials science literature
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Date
2022-10
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Publisher
Elsevier
Abstract
Materials science literature contains domain knowledge about numerous descriptors, which play a critical role in data-driven materials design. However, automatically extracting descriptors from literature remains challenging. Here, we develop an automatic descriptors recognizer based on natural language processing (NLP) to mine latent descriptors, which consists of a conditional data augmentation model incorporating materials domain knowledge (cDA-DK), coarse- and fine-grained descriptors subrecognizers (CGDR and FGDR). cDA-DK conducts augmenting training data of text mining model, which can significantly reduce the cost of manually labeling and enhance the robustness of its model. On this basis, CGDR recognizes coarse-grained descriptor entities automatically, and FGDR performs screening of fine-grained descriptors related to specific materials design. Following this, the activation energy of NASICON-type solid electrolytes, which is influenced by complicated descriptors, is taken as an example to demonstrate the potential utility of our recognizer. CGDR extracts 106896 descriptor entities from 1808 relevant articles with an accuracy (F1) of 0.87. Furthermore, with features from 408 descriptors screened by FGDR, six activation energy prediction models are constructed to perform experiments, achieving an optimal prediction performance (R2) of 0.96. This work provides important insight towards the understanding of structure-activity relationships, thus promoting materials design and discovery. © 2022 Elsevier B.V.
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Keywords
Data, Materials, Numerical data, Programming languages, Text Devices, Design, Solid Electrolytes, Pattern recognition
Citation
Liu, Y., Ge, X., Yang, Z., Sun, S., Liu, D., Avdeev, M., & Shi, S. (2022). An automatic descriptors recognizer customized for materials science literature. Journal of Power Sources, 545, 231946. doi:10.1016/j.jpowsour.2022.231946