An efficient and accurate framework for calculating lattice thermal conductivity of solids: AFLOW—AAPL Automatic Anharmonic Phonon Library-Reference-Cited by-同舟云学术

An efficient and accurate framework for calculating lattice thermal conductivity of solids: AFLOW—AAPL Automatic Anharmonic Phonon Library

Published:2017-10-20 Issue:1 Volume:3 Page:
ISSN:2057-3960
Container-title:npj Computational Materials
language:en
Short-container-title:npj Comput Mater

Author:

Plata Jose J.,Nath Pinku,Usanmaz Demet,Carrete Jesús,Toher Cormac,de Jong Maarten,Asta Mark,Fornari Marco^ORCID,Nardelli Marco Buongiorno,Curtarolo Stefano

Publisher

Springer Science and Business Media LLC

Subject

Computer Science Applications,Mechanics of Materials,General Materials Science,Modelling and Simulation

Link

http://www.nature.com/articles/s41524-017-0046-7.pdf

Reference115 articles.

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2. Carrete, J., Li, W., Mingo, N., Wang, S. & Curtarolo, S. Finding unprecedentedly low-thermal-conductivity half-heusler semiconductors via high-throughput materials modeling. Phys. Rev. X 4, 011019 (2014).

3. Carrete, J., Mingo, N., Wang, S. & Curtarolo, S. Nanograined half-Heusler semiconductors as advanced thermoelectrics: an ab initio high-throughput statistical study. Adv. Funct. Mater. 24, 7427–7432 (2014).

4. Yeh, L. -T. & Chu, R. C. Thermal Management of Microloectronic Equipment: Heat Transfer Theory, Analysis Methods, & Design Practices (ASME Press, New York, 2002).

5. Wright, C. D. et al. The design of rewritable ultrahigh density scanning-probe phase-change memories. IEEE Trans. Nanotechnol. 10, 900–912 (2011).

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