High Seebeck Coefficient and Unusually Low Thermal Conductivity Near Ambient Temperatures in Layered Compound Yb_2–xEu_xCdSb₂

Abstract: Zintl phases are promising thermoelectric materials because they are composed of both ionic and covalent bonding, which can be independently tuned. An efficient thermoelectric material would have regions of the structure composed of a high-mobility compound semiconductor that provides the "electron−crystal" electronic structure, interwoven (on the atomic scale) with a phonon transport inhibiting structure to act as the "phonon−glass". The phonon−glass region would benefit from disorder and therefore would be i… Show more

“…The AE 1 site, offering a larger available volume, accumulates most of the Eu in the structure, whereas the smaller AE 2 site shows a minute Eu occupancy of about 2%, in line with a larger ionic radius of Eu 2+ versus Ca 2+ . A similar trend was previously observed for the Yb 2 CdSb 2 -type solid solutions, Sr 2− x A x CdSb 2 ( A = Ca, Yb), Ba 2− x A x CdSb 2 ( A = Ca, Sr, Eu, Yb) [39], and Yb 2− x Eu x CdSb 2 [24,39].…”

“…In accordance with the simple electron counting in the frame of the Zintl concept, CaEuCdSb 2 displays an electronic bandgap of about 0.5 eV. This value is larger than the 0.1 eV bandgap calculated for the isostructural YbEuCdSb 2 [24]. This is likely is an electronic effect due to electronegativity differences between Yb and Ca, suggesting lower iconicity of the bonding in the latter compound.…”

“…Strong correlations of the Eu 4f orbitals considered by applying the GGA + U approach with U eff = 7 eV (rotationally invariant formulation [22]). For consistency with the previous theoretical work on d 10 metal antimonides [23,24], we also introduced U eff = 2 eV for the Cd 4d states. Spin polarization was treated in a simple ferromagnetic model.…”

Exploratory Work in the Quaternary System of Ca–Eu–Cd–Sb: Synthesis, Crystal, and Electronic Structures of New Zintl Solid Solutions

“…The AE 1 site, offering a larger available volume, accumulates most of the Eu in the structure, whereas the smaller AE 2 site shows a minute Eu occupancy of about 2%, in line with a larger ionic radius of Eu 2+ versus Ca 2+ . A similar trend was previously observed for the Yb 2 CdSb 2 -type solid solutions, Sr 2− x A x CdSb 2 ( A = Ca, Yb), Ba 2− x A x CdSb 2 ( A = Ca, Sr, Eu, Yb) [39], and Yb 2− x Eu x CdSb 2 [24,39].…”

“…In accordance with the simple electron counting in the frame of the Zintl concept, CaEuCdSb 2 displays an electronic bandgap of about 0.5 eV. This value is larger than the 0.1 eV bandgap calculated for the isostructural YbEuCdSb 2 [24]. This is likely is an electronic effect due to electronegativity differences between Yb and Ca, suggesting lower iconicity of the bonding in the latter compound.…”

“…Strong correlations of the Eu 4f orbitals considered by applying the GGA + U approach with U eff = 7 eV (rotationally invariant formulation [22]). For consistency with the previous theoretical work on d 10 metal antimonides [23,24], we also introduced U eff = 2 eV for the Cd 4d states. Spin polarization was treated in a simple ferromagnetic model.…”

Exploratory Work in the Quaternary System of Ca–Eu–Cd–Sb: Synthesis, Crystal, and Electronic Structures of New Zintl Solid Solutions

“…Best performing oxide‐based materials highlighting (A) highest σ, (B) low κ t and (C) ZT value via miscellaneous optimization techniques …”

Inorganic thermoelectric materials: A review

“…Some of those include the A 14 MSb 11 (A = Ca, Yb; M = Al, Mn), A 11 Pn 10 (A = Ca, Yb, Eu; Pn = Sb, Bi, Sn), A 5 M 2 Pn 6 (A = Ca, Yb; M = Al, In; Pn = Sb, Ge) systems, and AM 2 Pn 2 (A = Ca, Yb, Eu; M = Mg, Zn, Cd; Pn = Sb, Bi) systems . Recently, the Yb 2‐ x Eu x CdSb 2 series having the Eu substitution for Yb in the A 2 CdSb 2 (A = Ca, Yb, Eu, Sr) system was reported for the high Z T value due to its low lattice conductivity originated from the 2‐dimensional (2‐D) crystal structure and the Yb 2+ /Eu 2+ mixed‐cations . However, despite the similarities of Yb and Ca in terms of the cationic sizes as well as electronegativities, the Ca 2‐ x Eu x CdSb 2 series having the Ca 2+ /Eu 2+ mixed‐site has not been thoroughly investigated in the A 2 CdSb 2 system.…”

Experimental and Theoretical Investigations for the Quaternary Mixed‐Cation Zintl Phase Ca_1.82(1)Eu_0.18CdSb₂