Journal of Inorganic Materials, Volume. 37, Issue 10, 1079(2022)
[1] W ZHOU, K YAMAMOTO, A MIURA et al. Seebeck-driven transverse thermoelectric generation. Nature Materials, 463-467(2021).
[3] L E BELL. Cooling, heating, generating power, and recovering waste heat with thermoelectric systems. Science, 1457-1461(2008).
[4] D W YANG, T T LUO, X X SU et al. Unveiling the intrinsic low thermal conductivity of BiAgSeS through entropy engineering in SHS kinetic process. Journal of Inorganic Materials, 991-998(2021).
[12] M HONG, K ZHENG, W LYV et al. Computer-aided design of high-efficiency GeTe-based thermoelectric devices. Energy & Environmental Science, 13, 1856-1864(2020).
[15] Q Y YANG, P F QIU, X SHI et al. Application of entropy engineering in thermoelectrics. Journal of Inorganic Materials, 347-354(2021).
[18] T DENG, T XING, M K BROD et al. Discovery of high- performance thermoelectric copper chalcogenide using modified diffusion-couple high-throughput synthesis and automated histogram analysis technique. Energy & Environmental Science, 3041-3053(2020).
[25] X CHENG, D YANG, X SU et al. Synergistically enhanced thermoelectric performance of Cu2SnSe3-based composites
Get Citation
Copy Citation Text
PeiAn REN, Cong WANG, Peng ZI, Qirui TAO, Xianli SU, Xinfeng TANG.
Category: RESEARCH ARTICLE
Received: Jan. 24, 2022
Accepted: --
Published Online: Jan. 12, 2023
The Author Email: SU Xianli (suxianli@whut.edu.cn), TANG Xinfeng (tangxf@whut.edu.cn)