Shulin Bai
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Explore the profile of Shulin Bai including associated specialties, affiliations and a list of published articles.
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26
Citations
83
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Recent Articles
1.
Shi H, Wen Y, Bai S, Chang C, Su L, Gao T, et al.
Nat Commun
. 2025 Feb;
16(1):1788.
PMID: 39979348
SnSe crystal has witnessed significant advancements as a promising thermoelectric material over the past decade. Its in-plane direction shows robust mechanical strength for practical thermoelectric applications. Herein, we optimize the...
2.
Liu D, Bai S, Wen Y, Peng J, Liu S, Shi H, et al.
Natl Sci Rev
. 2025 Jan;
12(2):nwae448.
PMID: 39830400
Thermoelectrics can mutually convert between thermal and electrical energy, ensuring its utilization in both power generation and solid-state cooling. BiTe exhibits promising room-temperature performance, making it the sole commercially available...
3.
Liu S, Bai S, Wen Y, Lou J, Jiang Y, Zhu Y, et al.
Science
. 2025 Jan;
387(6730):202-208.
PMID: 39787235
Thermoelectrics have been limited by the scarcity of their constituent elements, especially telluride. The earth-abundant, wide-bandgap ( ≈ 46 ) tin sulfide (SnS) has shown promising performance in its crystal...
4.
Liao P, Guo H, Niu H, Li R, Yin G, Kang L, et al.
ACS Nano
. 2024 Oct;
18(44):30593-30604.
PMID: 39446081
The rapid development of modern electronic devices increasingly requires thermal management materials with controllable electrical properties, ranging from conductive and dielectric to insulating, to meet the needs of diverse applications....
5.
Zhan S, Bai S, Qiu Y, Zheng L, Wang S, Zhu Y, et al.
Adv Mater
. 2024 Oct;
36(47):e2412967.
PMID: 39363688
The simultaneous optimization of n-type and p-type thermoelectric materials is advantageous to the practical application of the device. As an emerging thermoelectric material, PbSnS exhibits highly competitive thermoelectric properties due...
6.
Gao D, Wen Y, Bai S, Wang S, Liu S, Li Y, et al.
Small
. 2024 Sep;
20(50):e2407556.
PMID: 39344539
Ideal thermoelectrics shall possess a high average ZT, which relies on high carrier mobility and appropriate carrier density at operating temperature. However, conventional doping usually results in a temperature-independent carrier...
7.
Wang L, Wen Y, Bai S, Chang C, Li Y, Liu S, et al.
Nat Commun
. 2024 May;
15(1):3782.
PMID: 38710678
Thermoelectrics have great potential for use in waste heat recovery to improve energy utilization. Moreover, serving as a solid-state heat pump, they have found practical application in cooling electronic products....
8.
Li Y, Bai S, Wen Y, Zhao Z, Wang L, Liu S, et al.
Sci Bull (Beijing)
. 2024 Apr;
69(11):1728-1737.
PMID: 38688741
Thermoelectric materials have a wide range of application because they can be directly used in refrigeration and power generation. And the BiTe stand out because of its excellent thermoelectric performance...
9.
Bashir A, Niu H, Maqbool M, Usman A, Lv R, Ashraf Z, et al.
Small Methods
. 2024 Mar;
8(12):e2301788.
PMID: 38507731
The relentless drive toward miniaturization in microelectronic devices has sparked an urgent need for materials that offer both high thermal conductivity (TC) and excellent electrical insulation. Thermal interface materials (TIMs)...
10.
Hong T, Qin B, Qin Y, Bai S, Wang Z, Cao Q, et al.
J Am Chem Soc
. 2024 Mar;
146(12):8727-8736.
PMID: 38487899
The practical application of thermoelectric devices requires both high-performance n-type and p-type materials of the same system to avoid possible mismatches and improve device reliability. Currently, environmentally friendly SnTe thermoelectrics...