Seebeck coefficient of quasi-two-dimensional SnSxSe2−x crystals

Abstract

We have measured the Seebeck coefficient of quasi-two-dimensional single crystals of SnSe₂, SnS_0.1Se_1.9, and SnS_0.3Se_1.7, grown by the Bridgman technique, and SnSe₂, grown by iodine transport, over a large temperature range varying from 15 (4.2 for SnSe₂) to 300 K. To assist in the interpretation of these results, the Hall coefficient and resistivity were measured on SnSe₂ and SnS_0.1Se_1.9 Bridgman samples. All these measurements were done in a plane perpendicular to the c axis. It was found that, as the temperature decreases, the absolute value of the Seebeck coefficient decreases slightly before a surprisingly large increase at the lowest temperatures. We interpret these results as the manifestation of two conduction mechanisms: electrons in the conduction band and hopping of electrons between impurities.