Collection 09 September 2019

Thermoelectric materials by design

Thermoelectric materials are attractive options for recovering energy that would otherwise be lost, based on the principle of an electrical potential being generated when there is a temperature difference across a piece of material. Enhancing the thermoelectric performance is a significant challenge however because the determining factors typically correlate with each other and are therefore difficult to tune independently. Deep understanding of electrical and thermal transport properties does make it possible, however, to design optimized material structures across multiple length scales. In particular, machine learning is a powerful tool for optimizing compositions, and the combination of calculations and experiments has accelerated the development of high performance thermoelectric materials. This collection brings together recent works published in npj Computational Materials that contribute towards the design of high performance thermoelectric materials.

Articles

Predicting interfacial thermal resistance by machine learning
- Yen-Ju Wu
- Lei Fang
- Yibin Xu
ArticleOpen Access3 May 2019 npj Computational Materials
Active learning for accelerated design of layered materials
- Lindsay Bassman Oftelie
- Pankaj Rajak
- Priya Vashishta
ArticleOpen Access10 Dec 2018 npj Computational Materials
Empirical modeling of dopability in diamond-like semiconductors
- Samuel A. Miller
- Maxwell Dylla
- Eric S. Toberer
ArticleOpen Access6 Dec 2018 npj Computational Materials
Ultra-low thermal conductivity of two-dimensional phononic crystals in the incoherent regime
- Guofeng Xie
- Zhifang Ju
- Gang Zhang
ArticleOpen Access16 Apr 2018 npj Computational Materials
First-principles calculation of intrinsic defect chemistry and self-doping in PbTe
- Anuj Goyal
- Prashun Gorai
- Vladan Stevanović
ArticleOpen Access10 Oct 2017 npj Computational Materials
Contribution of point defects and nano-grains to thermal transport behaviours of oxide-based thermoelectrics
- Guang-Kun Ren
- Jin-Le Lan
- Ce-Wen Nan
ArticleOpen Access12 Aug 2016 npj Computational Materials
Effective mass and Fermi surface complexity factor from ab initio band structure calculations
- Zachary M. Gibbs
- Francesco Ricci
- G. Jeffrey Snyder
ArticleOpen Access23 Feb 2017 npj Computational Materials

Reviews

On the tuning of electrical and thermal transport in thermoelectrics: an integrated theory–experiment perspective
- Jiong Yang
- Lili Xi
- David J Singh
Review ArticleOpen Access26 Feb 2016 npj Computational Materials
Computational strategies for design and discovery of nanostructured thermoelectrics
- Shiqiang Hao
- Vinayak P. Dravid
- Christopher Wolverton
Review ArticleOpen Access14 May 2019 npj Computational Materials
Insights into the design of thermoelectric Mg₃Sb₂ and its analogs by combining theory and experiment
- Jiawei Zhang
- Lirong Song
- Bo Brummerstedt Iversen
Review ArticleOpen Access17 Jul 2019 npj Computational Materials

Thermoelectric materials by design

Articles

Predicting interfacial thermal resistance by machine learning

Active learning for accelerated design of layered materials

Empirical modeling of dopability in diamond-like semiconductors

Ultra-low thermal conductivity of two-dimensional phononic crystals in the incoherent regime

First-principles calculation of intrinsic defect chemistry and self-doping in PbTe

Contribution of point defects and nano-grains to thermal transport behaviours of oxide-based thermoelectrics

Effective mass and Fermi surface complexity factor from ab initio band structure calculations

Reviews

On the tuning of electrical and thermal transport in thermoelectrics: an integrated theory–experiment perspective

Computational strategies for design and discovery of nanostructured thermoelectrics

Insights into the design of thermoelectric Mg₃Sb₂ and its analogs by combining theory and experiment

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