An approach of enhancing thermoelectric performance for p-type PbS: Decreasing electronic thermal conductivity

In this work, the thermoelectric performance of p-type PbS was boosted remarkably through Na doping and introducing Cu2S. Firstly, the electrical transport properties (power factor) of p-type PbS was optimized via Na doping, and the maximum ZT ∼ 0.67 was achieved in Pb0.98Na0.02S. Secondly, the tota...

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Bibliographic Details
Published in:Journal of alloys and compounds 2020-04, Vol.820, p.153453, Article 153453
Main Authors: Qin, Yongxin, Xiao, Yu, Wang, Dongyang, Qin, Bingchao, Huang, Zhiwei, Zhao, Li-Dong
Format: Article
Language:English
Subjects:
Carrier density
Conductivity
Copper sulfides
Doping
Electrical resistivity
Electronic thermal conductivity
Heat conductivity
Heat transfer
Lattice thermal conductivity
p-type PbS
Power factor
Thermal conductivity
Thermoelectric
Thermoelectric materials
Transport properties
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Summary:In this work, the thermoelectric performance of p-type PbS was boosted remarkably through Na doping and introducing Cu2S. Firstly, the electrical transport properties (power factor) of p-type PbS was optimized via Na doping, and the maximum ZT ∼ 0.67 was achieved in Pb0.98Na0.02S. Secondly, the total thermal conductivity of Pb0.98Na0.02S was suppressed through introducing Cu2S by means of significantly reducing the electronic thermal conductivity by 80% at 823 K through Cu counter-doping, meanwhile, the power factor of Pb0.98Na0.02S was further enhanced through optimizing carrier concentrations via introducing Cu. The combination of decreasing total thermal conductivities and the optimizing power factors leads to peak ZT ∼1.2 at 823 K in p-type Pb0.98Na0.02S–2%Cu2S. Present results illustrate that introducing Cu2S is an effective method to enhance the thermoelectric performance of p-type PbS through decreasing the electronic thermal conductivity which also has great potential in other thermoelectric materials system. •Thermoelectric performance of p-type PbS was remarkably boosted by reducing electronic thermal conductivity κele.•κele of p-type Pb0.98Na0.02S was reduced by 80% from ∼0.53 W m−1K−1 to ∼ 0.11 W m−1K−1 at 823 K with introducing Cu2S.•The maximum ZT ∼1.2 at 823 K was realized in p-type Pb0.98Na0.02S–2%Cu2S.
ISSN:0925-8388
1873-4669
DOI:10.1016/j.jallcom.2019.153453