Discordant nature of Cd in PbSe: off-centering and core–shell nanoscale CdSe precipitates lead to high thermoelectric performance-Reference-Cited by-同舟云学术

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Discordant nature of Cd in PbSe: off-centering and core–shell nanoscale CdSe precipitates lead to high thermoelectric performance

Published:2020 Issue:1 Volume:13 Page:200-211
ISSN:1754-5692
Container-title:Energy & Environmental Science
language:en
Short-container-title:Energy Environ. Sci.

Author:

Cai Songting¹²³⁴^ORCID,Hao Shiqiang¹²³⁴,Luo Zhong-Zhen⁵²³⁴⁶,Li Xiang⁷⁸⁹⁴,Hadar Ido⁵²³⁴^ORCID,Bailey Trevor P.¹⁰¹¹¹²⁴^ORCID,Hu Xiaobing¹²³⁴¹³^ORCID,Uher Ctirad¹⁰¹¹¹²⁴,Hu Yan-Yan⁷⁸⁹⁴¹⁴^ORCID,Wolverton Christopher¹²³⁴,Dravid Vinayak P.¹²³⁴¹³^ORCID,Kanatzidis Mercouri G.⁵²³⁴^ORCID

Affiliation:

1. Department of Materials Science and Engineering

2. Northwestern University

3. Evanston

4. USA

5. Department of Chemistry

6. School of Materials Science and Engineering, Nanyang Technological University

7. Department of Chemistry and Biochemistry

8. Florida State University

9. Tallahassee

10. Department of Physics

11. University of Michigan

12. Ann Arbor

13. NUANCE Center

14. National High Magnetic Field Laboratory

Abstract

Off-centering and core–shell nanoscale CdSe precipitates lead to high thermoelectric performance for p-type, Te-free PbSe systems.

Funder

Division of Materials Research

Division of Electrical, Communications and Cyber Systems

Office of Science

Office of Naval Research

Publisher

Royal Society of Chemistry (RSC)

Subject

Pollution,Nuclear Energy and Engineering,Renewable Energy, Sustainability and the Environment,Environmental Chemistry

Link

http://pubs.rsc.org/en/content/articlepdf/2020/EE/C9EE03087E

Reference66 articles.

1. Rationally Designing High-Performance Bulk Thermoelectric Materials

2. Thinking Like a Chemist: Intuition in Thermoelectric Materials

3. Thermoelectric materials: Energy conversion between heat and electricity

4. Thermoelectric power generation: from new materials to devices

5. Excessively Doped PbTe with Ge-Induced Nanostructures Enables High-Efficiency Thermoelectric Modules

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