期刊
ACS APPLIED MATERIALS & INTERFACES
卷 9, 期 39, 页码 34033-34041出版社
AMER CHEMICAL SOC
DOI: 10.1021/acsami.7b08770
关键词
thermoelectric; SnS; carrier concentration; SPB model; zT
资金
- National Natural Science Foundation of China [51422208, 11474219, 51401147]
- national Recruitment Program of Global Youth Experts (1000 Plan)
Tin sulfide (SnS), a low-cost compound from the IV-VI semiconductors, has attracted particular attention due to its great potential for large-scale thermoelectric applications. However, pristine SnS shows a low carrier concentration, which leads to a low thermoelectric performance. In this work, sodium is utilized to substitute Sn to increase the hole concentration and consequently improve the thermoelectric power factor. The resultant Hall carrier concentration up to similar to 10(19) cm(-3) is the highest concentration reported so far for this compound. This further leads to the highest thermoelectric figure of merit, zT of 0.65, reported so far in polycrystalline SnS. The temperature-deperident Hall mobility shows a transition of carrier-scattering source firom a grain boundary potential below 400 K to acoustic phonons at higher temperatures. The electronic transport properties can be well understood by a single parabolic band (SPB) model, enabling a quantitative guidance for maximizing the thermoelectric power factor. Using the experimental lattice thermal conductivity, a maximal zT of 0.8 at 850 K is expected when the carrier concentration is further increased to similar to 1 X 10(20) cm(-3) , according to the SPB model. This work not only demonstrates SnS as a promising low-cost thermoelectric material but also details the material parameters that fundamentally determine the thermoelectric properties.
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