Your search keyword '"Philippi, Kai"' showing total 3 results

1. Dependence of the Physical Properties on the Cation Ordering in the New Ternary Phosphide ZnCu 2 P 8

Author

Nuss, Jürgen, primary, Wedig, Ulrich, additional, Philippi, Kai, additional, and Takagi, Hidenori, additional

Published

2020

2. Dependence of the Physical Properties on the Cation Ordering in the New Ternary Phosphide ZnCu2P8.

Author

Nuss, Jürgen, Wedig, Ulrich, Philippi, Kai, and Takagi, Hidenori

Subjects

DENSITY functionals, CATIONS, THERMOELECTRIC materials, THERMAL conductivity, TERNARY system

Abstract

: The air‐stable phosphide, ZnCu2P8, was synthesized from its elements in gram amounts. It crystallizes in the Cu2.5In0.5P8 structure type [C2/c, Z = 4, a = 1110.8(2) pm, b = 964.7(2) pm, c = 752.7(1) pm, β = 110.027(3)°], and is the first ternary phosphide in the system Zn/Cu/P. Its crystal structure consists of two‐dimensional, layered polyphosphide‐anions, separated by tetrahedrally‐coordinated cations. 135 symmetry independent configurations, each with a different and specific Zn2+ and Cu+ arrangement, where explored with density functional methods. Whereby, each of the 135 cation ordering pattern has a diverse bandgap, and the total energies vary in the range of 1 eV. As several configurations with low energy are close in energy, an intrinsic disorder is discussed as origin of the promising low lattice thermal conductivity, observed. [ABSTRACT FROM AUTHOR]

Published

2020

3. Dependence of the Physical Properties on the Cation Ordering in the New Ternary Phosphide ZnCu2P8.

Author

Nuss, Jürgen, Wedig, Ulrich, Philippi, Kai, and Takagi, Hidenori

Subjects

*DENSITY functionals, *CATIONS, *THERMOELECTRIC materials, *THERMAL conductivity, *TERNARY system

Abstract

: The air‐stable phosphide, ZnCu2P8, was synthesized from its elements in gram amounts. It crystallizes in the Cu2.5In0.5P8 structure type [C2/c, Z = 4, a = 1110.8(2) pm, b = 964.7(2) pm, c = 752.7(1) pm, β = 110.027(3)°], and is the first ternary phosphide in the system Zn/Cu/P. Its crystal structure consists of two‐dimensional, layered polyphosphide‐anions, separated by tetrahedrally‐coordinated cations. 135 symmetry independent configurations, each with a different and specific Zn2+ and Cu+ arrangement, where explored with density functional methods. Whereby, each of the 135 cation ordering pattern has a diverse bandgap, and the total energies vary in the range of 1 eV. As several configurations with low energy are close in energy, an intrinsic disorder is discussed as origin of the promising low lattice thermal conductivity, observed. [ABSTRACT FROM AUTHOR]

Published

2020