Evaluation of Thermoelectric Properties of Ag_0.366Sb_0.558Te

Abstract: Ternary AgSbTe 2 materials are frequently reported to show a promising thermoelectric performance, due to the intrinsically low lattice thermal conductivity and complex valence band structure. However, stoichiometric AgSbTe 2 is found to be thermodynamically unstable and would partially decompose into Ag 2 Te and Sb 2 Te 3 during thermal cycling. Instead, Ag 0.366 Sb 0.558 Te is the composition for stabilizing the single-phase according to the Ag 2 Te-Sb 2 Te 3 phase diagram, while the thermoelectric transport… Show more

“…This can be effectively realized by introducing various defects, such as zero-dimensional point defects, [1][2][3][4][5][6] one-dimensional dislocations [7,8] and twodimensional interfaces, [9][10][11][12] for effectively scattering phonons and thereby reducing κ L . Moreover, the features of complex crystal structure, [13,14] liquid-like ions, [15] low sound velocity, [16] and strong lattice anharmonicity [17,18] have been demonstrated to accompany with an intrinsic low κ L , which are utilized as guiding principles for exploring novel thermoelectric materials with a superior zT .…”

Advances in thermoelectric (GeTe) _x (AgSbTe₂)_{100 – x}

“…This can be effectively realized by introducing various defects, such as zero-dimensional point defects, [1][2][3][4][5][6] one-dimensional dislocations [7,8] and twodimensional interfaces, [9][10][11][12] for effectively scattering phonons and thereby reducing κ L . Moreover, the features of complex crystal structure, [13,14] liquid-like ions, [15] low sound velocity, [16] and strong lattice anharmonicity [17,18] have been demonstrated to accompany with an intrinsic low κ L , which are utilized as guiding principles for exploring novel thermoelectric materials with a superior zT .…”

Advances in thermoelectric (GeTe) _x (AgSbTe₂)_{100 – x}

Thermoelectric properties of (GeTe)1-x[(Ag2Te)0.4(Sb2Te3)0.6]x alloys

Identifying polymorphic lattice positioning of copper and the effects on the thermoelectric performance of δ-LAST