Linking far-from-equilibrium defect structures in ceramics to electromagnetic driving forces-Reference-Cited by-同舟云学术

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Linking far-from-equilibrium defect structures in ceramics to electromagnetic driving forces

Published:2021 Issue:13 Volume:9 Page:8425-8434
ISSN:2050-7488
Container-title:Journal of Materials Chemistry A
language:en
Short-container-title:J. Mater. Chem. A

Author:

Nakamura Nathan¹²³⁴^ORCID,Su Laisuo¹²³⁴,Wang Han⁵⁶⁷⁴^ORCID,Bernstein Noam⁸⁹¹⁰¹¹⁴,Jha Shikhar Krishn¹²³⁴,Culbertson Elizabeth¹²¹³¹⁴⁴,Wang Haiyan⁵⁶⁷⁴^ORCID,Billinge Simon J. L.¹²¹³¹⁴⁴¹⁵,Hellberg C. Stephen⁸⁹¹⁰¹¹⁴,Reeja-Jayan B.¹²³⁴^ORCID

Affiliation:

1. Department of Mechanical Engineering

2. Carnegie Mellon University

3. Pittsburgh

4. USA

5. Department of Materials Engineering

6. Purdue University

7. West Lafayette

8. Center for Computational Materials Science

9. Code 6390

10. Naval Research Laboratory

11. Washington DC 20375

12. Department of Applied Physics and Applied Mathematics

13. Columbia University

14. New York

15. Condensed Matter Physics and Materials Science Department

Abstract

Locally intensified, low energy electromagnetic fields can directly affect atomic arrangements through defect-driven structural distortions.

Funder

Office of Naval Research

Air Force Office of Scientific Research

Basic Energy Sciences

National Defense Science and Engineering Graduate

Publisher

Royal Society of Chemistry (RSC)

Subject

General Materials Science,Renewable Energy, Sustainability and the Environment,General Chemistry

Link

http://pubs.rsc.org/en/content/articlepdf/2021/TA/D1TA00486G

Reference50 articles.

1. Emergence and Extinction of a New Phase During On–Off Experiments Related to Flash Sintering of 3 YSZ

2. Unlocking the structure of mixed amorphous-crystalline ceramic oxide films synthesized under low temperature electromagnetic excitation

3. Microwave-Assisted Synthesis of Colloidal Inorganic Nanocrystals

4. Review of flash sintering: materials, mechanisms and modelling

5. Suppression of Metal-Insulator Transition in VO2 by Electric Field-Induced Oxygen Vacancy Formation

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