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Literature DB >> 16296865

Vertex-linked ZnO2S2 tetrahedra in the oxysulfide BaZnOS: a new coordination environment for zinc in a condensed solid.

Sarah Broadley¹, Zoltán A Gál, Furio Corà, Catherine F Smura, Simon J Clarke.

Abstract

The wide-band-gap semiconductor BaZnOS adopts a high-symmetry modification of the SrZnO2 structure type and contains layers of vertex-linked ZnO2S2 tetrahedra, which represent a novel coordination environment for zinc in the solid state. BaZnOS: orthorhombic, space group Cmcm; a = 3.9619(2) angstroms, b = 12.8541(7) angstroms, c = 6.1175(4) angstroms, Z = 4. Diffuse-reflectance spectroscopy measurements reveal a direct band gap of 3.9(3) eV, consistent with the white color and the results of band structure calculations. The band gap is larger than those observed in ZnO and ZnS, consistent with the more ionic nature of BaZnOS. Attempts to dope this compound electronically have so far not proved possible.

Entities: Chemical Disease

Year: 2005 PMID： 16296865 DOI： 10.1021/ic051240o

Source DB: PubMed Journal: Inorg Chem ISSN： 0020-1669 Impact factor: 5.165

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Cited

3 in total

Vertex-linked ZnO2S2 tetrahedra in the oxysulfide BaZnOS: a new coordination environment for zinc in a condensed solid.

Review 1. Metal Oxysulfides: From Bulk Compounds to Nanomaterials.

2. Spin-polarized Second Harmonic Generation from the Antiferromagnetic CaCoSO Single Crystal.

Review 3. A Review of Mechanoluminescence in Inorganic Solids: Compounds, Mechanisms, Models and Applications.