Pressure-induced intersite Bi-M (M=Ru, Ir) valence transitions in hexagonal perovskites

Zixin Huang; Josie E Auckett; Peter E R Blanchard; Brendan J Kennedy; Wojciech Miiller; Qingdi Zhou; Maxim Avdeev; Mark R Johnson; Mohamed Zbiri; Gaston Garbarino; William G Marshall; Qinfen Gu; Chris D Ling

doi:10.1002/anie.201311159

Pressure-induced intersite Bi-M (M=Ru, Ir) valence transitions in hexagonal perovskites

Angew Chem Int Ed Engl. 2014 Mar 24;53(13):3414-7. doi: 10.1002/anie.201311159. Epub 2014 Feb 24.

Authors

Zixin Huang¹, Josie E Auckett, Peter E R Blanchard, Brendan J Kennedy, Wojciech Miiller, Qingdi Zhou, Maxim Avdeev, Mark R Johnson, Mohamed Zbiri, Gaston Garbarino, William G Marshall, Qinfen Gu, Chris D Ling

Affiliation

¹ School of Chemistry, The University of Sydney, Sydney 2006 (Australia).

PMID: 24616087
DOI: 10.1002/anie.201311159

Abstract

Pressure-induced charge transfer from Bi to Ir/Ru is observed in the hexagonal perovskites Ba(3+n)BiM(2+n)O(9+3n) (n=0,1; M=Ir,Ru). These compounds show first-order, circa 1% volume contractions at room temperature above 5 GPa, which are due to the large reduction in the effective ionic radius of Bi when the 6s shell is emptied on oxidation, compared to the relatively negligible effect of reduction on the radii of Ir or Ru. They are the first such transitions involving 4d and 5d compounds, and they double the total number of cases known. Ab initio calculations suggest that magnetic interactions through very short (ca. 2.6 Å) M-M bonds contribute to the finely balanced nature of their electronic states.

Keywords: ab initio calculations; charge transfer; high-pressure chemistry; perovskite phases; phase transitions.