The black-colored compound BaUSe3 has been synthesized at 1173 K by a stoichiometric reaction of the elements in a CsCl flux. BaUSe3 crystallizes in the GdFeO3 structure type. There is no change in structure between 100 and 298 K. The U atoms in this structure are octahedrally connected to six Se atoms. Each octahedral unit shares all six corners with neighboring octahedra, forming a three-dimensional network. BaUSe3 can be charge balanced as Ba2+U4+(Se2-)3. DFT electronic structure calculations found BaUSe3 to be antiferromagnetic in its ground state and to be a semiconductor with a band gap of 2.5 eV. The band gap is inconsistent with the black color of the material and with the small activation energy of 0.12(1) eV obtained from resistivity measurements. A UV-vis spectrum indicated that there was no band gap above 1 eV. It is possible that, for BaUSe3, intrinsic and extrinsic impurities from the flux create midgap states that lead to the experimentally measured narrow optical gap. More likely, BaUSe3 presents a challenge to DFT calculations as applied to 5f materials. © 2016 American Chemical Society.

Jai Prakash

Department of Chemistry

M.S. Tarasenko

A. Mesbah

S. Lebègue

C.D. Malliakas

J.A. Ibers

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IIT Hyderabad

Inorganic Chemistry

Synthesis, crystal structure, theoretical, and resistivity study of BaUSe3

Journal	Data powered by TypesetInorganic Chemistry
Publisher	Data powered by TypesetAmerican Chemical Society
ISSN	00201669