2015
DOI: 10.1039/c5dt01528f
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Synthesis and crystal structure of a new hexagonal perovskite 7H-Ba7Li1.75Mn3.5O15.75with Mn4+/Mn5+charge distribution

Abstract: .75 Mn 3.5 O 15.75 is a new hexagonal perovskite whose crystal structure has elements typical for the layered hexagonal perovskites and quasi-one-dimensional oxides, hence representing a new polytype. It has been synthesized via a solid-state microwave route. The crystal structure was solved using a combination of X-ray and neutron diffraction data, which show that Ba 7 Li 1.75 Mn 3.5 O 15.75 crystallizes in a hexagonal unit cell with parameters a = 5.66274(2) Å and c = 16.7467(1) Å (V = 465.063(4) Å 3 ), with… Show more

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“…For example, BaIrO 3 and BaRuO 3 exhibit structures with 67% facesharing, 25,26 while BaMnO 3 exhibits a wide variety of polytypes depending on synthesis conditions. 27 These compounds are of recent interest because they exhibit metal-insulator 28 and ferromagnetic Mott insulator to paramagnetic charge-ordered insulator 25 transitions.…”
Section: Introductionmentioning
confidence: 99%
“…For example, BaIrO 3 and BaRuO 3 exhibit structures with 67% facesharing, 25,26 while BaMnO 3 exhibits a wide variety of polytypes depending on synthesis conditions. 27 These compounds are of recent interest because they exhibit metal-insulator 28 and ferromagnetic Mott insulator to paramagnetic charge-ordered insulator 25 transitions.…”
Section: Introductionmentioning
confidence: 99%