The binary niobium sulfide NbS 4 was synthesized as a crystalline phase. We showed that NbS 4 can be formed from Nb metal, from defect niobium sulfide Nb 1.14 S 2 , or from some other niobium dichalcogenides in reactions with excess sulfur in an evacuated ampule at 440 °C. The crystal structure of NbS 4 (monoclinic space group C2/c, a = 13.126(2) Å, b = 10.454(1) Å, c = 6.951(1) Å, β = 111.939(5)°) is a packing of infinite chains {NbS 4 } 1∞ , analogous to VS 4 . In the chains, Nb atoms are in a tetragonalantiprismatic coordination of sulfur atoms of disulfide groups (S 2 ) 2− ; short Nb•••Nb contacts (2.896 Å) alternating with longer ones (3.278 Å) appear within the chains at 150 K. According to density functional theory calculations, NbS 4 is a thermodynamically stable compound, a nonmagnetic semiconductor. NbS 4 is a new member of the family of quazione-dimensional compounds, group 5 metal polychalcogenides, well-known for their interesting electrophysical properties. The synthesis and crystal structure as well as the thermal stability and lattice dynamics of NbS 4 are discussed here.
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