摘要
Recently,SnSe has attracted wide attention as a promising environment-friendly IV-VI thermoelectric material.Here,SnS is alloyed with Na-doped SnSe to decrease the thermal conductivity for better thermoelectric performance.Consistent with previous reports,the lattice constant and the band gap change linearly with increasing SnS,suggesting the formation of SnSe1-xSx solid solution.However,SnS nano-precipitations have been clearly observed,indicating the phase separation in the alloys.Moreover,the grain size decreases obviously with increasing SnS amount.The first-principles calculations show that the nano-precipitation is due to the positive formation energies for SnSe1-xSx in the small x region.Due to the structure engineering,the lattice thermal conductivity is greatly reduced in SnSe1-xSx samples,leading to a promising ZT of 1.35 for Na_(0.03)Sn_(0.97)Se_(0.7S0.3)at 816 K.
基金
the National Key Research and Development Program of China(2017YFC0111602 and 2016YFC0101801)
the Natural Science Foundation of Zhejiang Province(LY18E020017,LY17A040012,and LY18A040008)
Zhe�jiang Provincial Science Fund for Distinguished Young Scholars(LR16E020001)
Ningbo Municipal Natural Science Foundation(2017A610107).
