Add to ORKGAb initio band structure calculations were performed for the low-temperature modifications of the silver chalcogenides B-Ag2Se, B-Ag2Te and the ternary compound B-Ag3AuSe2 by the local spherical wave (LSW)method. Coordinated of the atoms of B-Ag2Se and B-Ag3AuSe2 were obtained from refinements using X-ray powder data. The structures are characterized by three, four and five coordinates of silver by the chalcogen, a linear coordination of gold by Se, and by metal-metal distances only slightly larger than in the metals. The band structure calculations show that B-Ag3AuSe2 is a semiconductor, while B-Ag2Se and B-Ag2Te are semimetals with an overlap of about 0.1-0.2 eV. The Ag 4d and Au 5d states are strongly hybridized with the chalcogen p sta...
International audienceThe crystal structure of a Se-rich antimonpearceite has been solved and refine...
International audienceIn this work we study the electronic structure of ${\mathrm{Ag}}_{3}{\mathrm{A...
Energy dispersive x-ray spectroscopy of lowtemperature b¢-Ag<sub>8</sub>SnSe<sub>6...
Ab initio band structure calculations were performed for the low-temperature modifications of the si...
Ab initio band structure calculations were performed for the low-temperature modifications of the si...
The electronic structure of the silver chalcogenide compound Ag2S has been investigated, experimenta...
First principles density functional theory (DFT) calculations for bulk structural, electro...
Previous band structure calculations predicted Ag3AuSe2 to be a semiconductor with a band gap of app...
Non-trivial electronic properties of silver telluride and other chalcogenides, such as the presence ...
Ab initio calculations have been performed on the chalcogenido silver(I) model complexes [Ag4(μ-H2PC...
Previous band structure calculations predicted Ag3AuSe2 to be a semiconductor with a band gap of app...
We present an ab initio study of the average structure of some incommensurately (IC) modulated mater...
International audienceSilver selenide (Ag2Se) is a ductile material with a low lattice thermal condu...
In recent years, Ag-Te systems have attracted much attention because of their unique properties of r...
Transition metal chalcogenides (TMCs) have gained worldwide interest owing to their outstanding rene...
International audienceThe crystal structure of a Se-rich antimonpearceite has been solved and refine...
International audienceIn this work we study the electronic structure of ${\mathrm{Ag}}_{3}{\mathrm{A...
Energy dispersive x-ray spectroscopy of lowtemperature b¢-Ag<sub>8</sub>SnSe<sub>6...
Ab initio band structure calculations were performed for the low-temperature modifications of the si...
Ab initio band structure calculations were performed for the low-temperature modifications of the si...
The electronic structure of the silver chalcogenide compound Ag2S has been investigated, experimenta...
First principles density functional theory (DFT) calculations for bulk structural, electro...
Previous band structure calculations predicted Ag3AuSe2 to be a semiconductor with a band gap of app...
Non-trivial electronic properties of silver telluride and other chalcogenides, such as the presence ...
Ab initio calculations have been performed on the chalcogenido silver(I) model complexes [Ag4(μ-H2PC...
Previous band structure calculations predicted Ag3AuSe2 to be a semiconductor with a band gap of app...
We present an ab initio study of the average structure of some incommensurately (IC) modulated mater...
International audienceSilver selenide (Ag2Se) is a ductile material with a low lattice thermal condu...
In recent years, Ag-Te systems have attracted much attention because of their unique properties of r...
Transition metal chalcogenides (TMCs) have gained worldwide interest owing to their outstanding rene...
International audienceThe crystal structure of a Se-rich antimonpearceite has been solved and refine...
International audienceIn this work we study the electronic structure of ${\mathrm{Ag}}_{3}{\mathrm{A...
Energy dispersive x-ray spectroscopy of lowtemperature b¢-Ag<sub>8</sub>SnSe<sub>6...