Ba2Mn2O4Cu0.9S: a layered oxysulfide with a new perovskite-related manganese oxide fragment
Ba2Mn2O4Cu0.9S: a layered oxysulfide with a new perovskite-related manganese oxide fragment
The oxysulfides Ba2Mn2O4Cu0.9S and Ba1.3Sr0.7Mn2O4CuS are reported. The compounds crystallize in space group P4/nmm with 2 formula units in the unit cell and lattice parameters a = 3.9916(1) angstrom and c = 19.5628(5) angstrom for a refined composition of Ba2Mn2O4CU0.89(1)S and a = 3.9595(1) angstrom and c = 19.2227(3) angstrom for Ba1.32(3)Sr0.68(4)Mn2O4Cu0.98(2)S determined, respectively, from powder neutron and X-ray single-crystal diffraction measurements. The structure consists of alkaline earth Manganite slabs composed of MnO5 square-based pyramids sharing edges and vertexes, which are separated by CuS antifluorite-type puckered layers. The central part of the alkaline earth manganite slab is composed of MnO5 square-based pyramidal units sharing all four of their basal edges with neighboring units in the basal plane and sharing their apical vertices with those of square-based MnO5 pyramids in the outer part of the alkaline earth manganite slab. This is similar to a structural fragment in the as-yet-unrealized strontium iron oxide Sr4Fe6O12, which is the oxide-poor relative of the anion-conducting Sr4Fe6O13 +/-delta phases. The intrinsic copper deficiency in semiconducting Ba2Mn2O4Cu0.9S suggests a mean manganese oxidation state of +2.55. The results of magnetic susceptibility measurements and low-temperature neutron diffraction results suggest that some moments participate in long-range antiferromagnetic order, whereas others give rise to spin-glass-like behavior.
559-566
Hyett, Geoffrey
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Gál, Zoltán A.
afa8d04e-0ac4-449d-a724-ff5a4387347c
Smura, Catherine F.
2e6692ad-530a-4a5b-a04c-07dc9390d081
Clarke, Simon J.
815edb0a-d89a-4770-8a11-3c23066b9b31
22 January 2008
Hyett, Geoffrey
4f292fc9-2198-4b18-99b9-3c74e7dfed8d
Gál, Zoltán A.
afa8d04e-0ac4-449d-a724-ff5a4387347c
Smura, Catherine F.
2e6692ad-530a-4a5b-a04c-07dc9390d081
Clarke, Simon J.
815edb0a-d89a-4770-8a11-3c23066b9b31
Hyett, Geoffrey, Gál, Zoltán A., Smura, Catherine F. and Clarke, Simon J.
(2008)
Ba2Mn2O4Cu0.9S: a layered oxysulfide with a new perovskite-related manganese oxide fragment.
Chemistry of Materials, 20 (2), .
(doi:10.1021/cm7021054).
Abstract
The oxysulfides Ba2Mn2O4Cu0.9S and Ba1.3Sr0.7Mn2O4CuS are reported. The compounds crystallize in space group P4/nmm with 2 formula units in the unit cell and lattice parameters a = 3.9916(1) angstrom and c = 19.5628(5) angstrom for a refined composition of Ba2Mn2O4CU0.89(1)S and a = 3.9595(1) angstrom and c = 19.2227(3) angstrom for Ba1.32(3)Sr0.68(4)Mn2O4Cu0.98(2)S determined, respectively, from powder neutron and X-ray single-crystal diffraction measurements. The structure consists of alkaline earth Manganite slabs composed of MnO5 square-based pyramids sharing edges and vertexes, which are separated by CuS antifluorite-type puckered layers. The central part of the alkaline earth manganite slab is composed of MnO5 square-based pyramidal units sharing all four of their basal edges with neighboring units in the basal plane and sharing their apical vertices with those of square-based MnO5 pyramids in the outer part of the alkaline earth manganite slab. This is similar to a structural fragment in the as-yet-unrealized strontium iron oxide Sr4Fe6O12, which is the oxide-poor relative of the anion-conducting Sr4Fe6O13 +/-delta phases. The intrinsic copper deficiency in semiconducting Ba2Mn2O4Cu0.9S suggests a mean manganese oxidation state of +2.55. The results of magnetic susceptibility measurements and low-temperature neutron diffraction results suggest that some moments participate in long-range antiferromagnetic order, whereas others give rise to spin-glass-like behavior.
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e-pub ahead of print date: 27 December 2007
Published date: 22 January 2008
Organisations:
Organic Chemistry: Synthesis, Catalysis and Flow
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Local EPrints ID: 347004
URI: http://eprints.soton.ac.uk/id/eprint/347004
ISSN: 0897-4756
PURE UUID: f8764fd2-b805-4b0b-8f6c-d0f63952dc9a
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Date deposited: 16 Jan 2013 16:54
Last modified: 15 Mar 2024 03:45
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Author:
Zoltán A. Gál
Author:
Catherine F. Smura
Author:
Simon J. Clarke
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