L
Lidong Chen
Researcher at Chinese Academy of Sciences
Publications - 628
Citations - 38035
Lidong Chen is an academic researcher from Chinese Academy of Sciences. The author has contributed to research in topics: Thermoelectric effect & Thermoelectric materials. The author has an hindex of 83, co-authored 586 publications receiving 29688 citations. Previous affiliations of Lidong Chen include General Motors & Shanghai University.
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Convergence of electronic bands for high performance bulk thermoelectrics
TL;DR: It is demonstrated that it is possible to direct the convergence of many valleys in a bulk material by tuning the doping and composition, leading to an extraordinary zT value of 1.8 at about 850 kelvin.
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Copper ion liquid-like thermoelectrics
Huili Liu,Xun Shi,Fangfang Xu,Linlin Zhang,Wenqing Zhang,Lidong Chen,Qiang Li,Ctirad Uher,Tristan Day,G. Jeffrey Snyder +9 more
TL;DR: The results indicate a new strategy and direction for high-efficiency thermoelectric materials by exploring systems where there exists a crystalline sublattice for electronic conduction surrounded by liquid-like ions.
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Multiple-filled skutterudites: high thermoelectric figure of merit through separately optimizing electrical and thermal transports.
Xun Shi,Xun Shi,Jiong Yang,James R. Salvador,Miaofang Chi,Jung Y. Cho,Hsin Wang,Shengqiang Bai,Jihui Yang,Wenqing Zhang,Lidong Chen +10 more
TL;DR: The results firmly show that high power factors can be realized by adjusting the total filling fraction of fillers with different charge states to reach the optimum carrier density, and lattice thermal conductivity can also be significantly reduced, to values near the glass limit of these materials.
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Research progress on conducting polymer based supercapacitor electrode materials
TL;DR: A review of conducting polymer (CP)-based supercapacitors can be found in this article, where the authors summarized recent research progress of conducting polymer-based electrodes for ultracapacitors, including polypyrrole, polyaniline and polythiophene.
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Realizing high figure of merit in heavy-band p-type half-Heusler thermoelectric materials.
TL;DR: A high zT of ∼1.5 at 1,200 K is reported for the p-type FeNbSb heavy-band half-Heusler alloys with enhanced point-defect and electron–phonon scatterings and a significant reduction in the lattice thermal conductivity, highlighting the optimization strategy forheavy-band thermoelectric materials.