Abstract
Two quaternary metal chalcogenides, Ba2AlSbS5 and Ba2GaBiSe5, were successfully synthesized by solid-state reaction in sealed silica tubes. Both of them crystallize in the same orthorhombic space group Pnma, but they appear with obviously different construction features. For example, Ba2AlSbS5 exhibits [SbS3]3− units and zero-dimensional (0D) [AlSbS5]4− clusters, which is different from those ([BiSe6]3− units and 1D ∞[GaBiSe5]4− chains) of Ba2GaBiSe5. We also systematically investigated the entire series of Ba2MIIIMIII’Q5 (MIII = Al, Ga, In; MIII’ = As, Sb, Bi; Q = S, Se, Te) compounds, and the results showed that the interconnection of MIIIQ4 and MIII’Qn (n = 3, 5, 6) units can form three different structural types, including 0D [MIIIMIII’Q5] clusters, single [MIII’Q3] chains and isolated [MIIIQ4] units, or [MIIIQ3]n and [MIII’Q3]n double chains, which may be induced by the flexible coordination and on-link modes of MIII’ atoms. Spectral investigation shows that their bandgaps are about 2.57 eV for Ba2AlSbS5 and 2.14 eV for Ba2GaBiSe5. Theoretical calculation was also used to analyze their structure-property relationships, and the results indicate that the title compounds exhibit larger birefringences (Δn > 0.10), thus having potential as the IR birefringent materials.
Highlights
Metal chalcogenides have been used as critical materials in the development of modern science and technology because of their structural complexities and fascinating properties [1,2,3,4,5,6,7,8,9,10,11,12]
Overall literature research indicates that the above MIII ’Qn units can bridge other functional units to form a variety of extended structures [16]
As for Ba2 AlSbS5, its asymmetrical unit is composed of one Ba, one Al, one Sb, and four S atoms
Summary
Metal chalcogenides have been used as critical materials in the development of modern science and technology because of their structural complexities and fascinating properties [1,2,3,4,5,6,7,8,9,10,11,12]. Many trivalent cations (such as MIII ’: As, Sb, or Bi) containing chalcogenides have been discovered and shown to have various application prospects. With stereochemically active lone-pair electrons, the above trivalent cations exhibit a flexible coordination environment for the formation of MIII ’Qn units (n = 3~6; Q = chalcogen), which offers an opportunity to affect their crystal structures and physicochemical properties [13,14,15,16,17,18,19,20,21,22,23,24].
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