Computational predictions of energy materials using density functional theory

Date Published
01/2016
Publication Type
Journal Article
Authors
DOI
10.1038/natrevmats.2015.4
Abstract

 In the search for new functional materials, quantum mechanics is an exciting starting point. The fundamental laws that govern the behaviour of electrons have the possibility, at the other end of the scale, to predict the performance of a material for a targeted application. In some cases, this is achievable using density functional theory (DFT). In this Review, we highlight DFT studies predicting energy-related materials that were subsequently confirmed experimentally. The attributes and limitations of DFT for the computational design of materials for lithium-ion batteries, hydrogen production and storage materials, superconductors, photovoltaics and thermoelectric materials are discussed. In the future, we expect that the accuracy of DFT-based methods will continue to improve and that growth in computing power will enable millions of materials to be virtually screened for specific applications. Thus, these examples represent a first glimpse of what may become a routine and integral step in materials discovery. 

Journal
Nature Reviews Materials
Volume
1
Year of Publication
2016
Issue
1
Short Title
Nat Rev Mater
Refereed Designation
Refereed
Organizations
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