S
Shan Li
Researcher at Harbin Institute of Technology
Publications - 33
Citations - 684
Shan Li is an academic researcher from Harbin Institute of Technology. The author has contributed to research in topics: Thermoelectric effect & Thermoelectric materials. The author has an hindex of 10, co-authored 23 publications receiving 328 citations. Previous affiliations of Shan Li include Texas Center for Superconductivity.
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Journal ArticleDOI
Recent progress towards high performance of tin chalcogenide thermoelectric materials
TL;DR: In this paper, the authors present the progress in SnTe, SnSe, and SnS, mainly discussing the effective tuning of the electron and phonon transport based on the intrinsic properties, along with the challenges for further optimization and applications.
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Zintl-phase Eu2ZnSb2: A promising thermoelectric material with ultralow thermal conductivity.
Chen Chen,Wenhua Xue,Shan Li,Zongwei Zhang,Xiaofang Li,Xinyu Wang,Yijie Liu,Jiehe Sui,Xingjun Liu,Feng Cao,Zhifeng Ren,Ching-Wu Chu,Yumei Wang,Qian Zhang +13 more
TL;DR: A promising 2-1-2–type Eu2ZnSb2 (P63/mmc) Zintl-phase thermoelectric material is reported, which provides a class ofZintl thermoeLECTric materials applicable in the medium-temperature range.
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High-Performance N-type Mg3Sb2 towards Thermoelectric Application near Room Temperature
Fan Zhang,Chen Chen,Honghao Yao,Fengxian Bai,Li Yin,Xiaofang Li,Shan Li,Wenhua Xue,Yumei Wang,Feng Cao,Xingjun Liu,Jiehe Sui,Qian Zhang +12 more
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Heavy Doping by Bromine to Improve the Thermoelectric Properties of n-type Polycrystalline SnSe
Shan Li,Yumei Wang,Chen Chen,Xiaofang Li,Wenhua Xue,Xinyu Wang,Zongwei Zhang,Feng Cao,Jiehe Sui,Xingjun Liu,Qian Zhang +10 more
TL;DR: A high concentration of Br doping on the Se site effectively increases the Hall carrier concentration, leading to an increased electrical conductivity close to that of a single crystal, with a peak ZT of ≈1.3 at 773 K.
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n-Type TaCoSn-Based Half-Heuslers as Promising Thermoelectric Materials.
Shan Li,Shan Li,Hangtian Zhu,Jun Mao,Zhenzhen Feng,Zhenzhen Feng,Zhenzhen Feng,Xiaofang Li,Chen Chen,Feng Cao,Xingjun Liu,David J. Singh,Zhifeng Ren,Qian Zhang +13 more
TL;DR: Phonon calculations by density functional theory indicate that the low phonon velocity, small Debye temperature, and large Grüneisen parameter are the contributors to the low thermal conductivity of TaCo Sn, which demonstrates that the TaCoSn-based half-Heuslers are promising thermoelectric materials.