Machine learning in materials modeling-fundamentals and the opportunities in 2D materials

Document Type

Syllabus

Publication Date

1-1-2020

Abstract

The application of machine learning in materials presents a unique challenge of dealing with scarce and varied materials data - both experimental and theoretical. Nevertheless, several state-of-the-art machine learning models for materials have been successfully developed to predict material properties for various applications such as materials for photovoltaic cells, thermoelectric materials, dielectrics, batteries, fuel cells, etc. The necessary steps of data representation, choice of algorithm and optimisation needed to develop a successful machine learning model pertaining to materials are discussed at length. The setup of comprehensive materials databases, and openly accessible algorithm frameworks have also spurred the usage of machine learning for solving some of the most pressing problems in materials science. Some such recent implementations are discussed in this chapter. A multitude of two-dimensional (2D) materials exist with the potential to replace the conventional materials for energy storage and nanodevices. The challenges faced in designing batteries and how machine learning tools can help in screening and narrowing down on the best composition, as well as the synthesis of air-stable 2D materials, are also discussed.

Identifier

85096646780 (Scopus)

ISBN

[9780128184752]

Publication Title

Synthesis Modelling and Characterization of 2d Materials and their Heterostructures

External Full Text Location

https://doi.org/10.1016/B978-0-12-818475-2.00019-2

First Page

445

Last Page

468

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