ScienceGate Book Chapters
JOURNAL ARTICLE

Direct Observation of Pressure-Driven Valence Electron Transfer in Ba3BiRu2O9, Ba3BiIr2O9, and Ba4BiIr3O12

Peter E. R. BlanchardKarena W. ChapmanSteve M. HealdMohamed ZbiriMark R. JohnsonBrendan J. KennedyChris D. Ling

Year: 2016 Journal:   Inorganic Chemistry Vol: 55 (11)Pages: 5649-5654   Publisher: American Chemical Society
DOI: 10.1021/acs.inorgchem.6b00718
   Get Full-Text PDF    Get Analytical Report

Abstract

The hexagonal perovskites Ba3BiIr2O9, Ba3BiRu2O9, and Ba4BiIr3O12 all undergo pressure-induced 1% volume collapses above 5 GPa. These first-order transitions have been ascribed to internal transfer of valence electrons between bismuth and iridium/ruthenium, which is driven by external applied pressure because the reduction in volume achieved by emptying the 6s shell of bismuth upon oxidation to Bi(5+) is greater in magnitude than the increase in volume by reducing iridium or ruthenium. Here, we report direct observation of these valence transfers for the first time, using high-pressure X-ray absorption near-edge spectroscopy (XANES) measurements. Our data also support the highly unusual "4+" nominal oxidation state of bismuth in these compounds, although the possibility of local disproportionation into Bi(3+)/Bi(5+) cannot be definitively ruled out. Ab initio calculations reproduce the transition, support its interpretation as a valence electron transfer from Bi to Ir/Ru, and suggest that the high-pressure phase may show metallic behavior (in contrast to the insulating ambient-pressure phase).

Keywords:
Chemistry Valence (chemistry) Bismuth XANES Electron transfer Ruthenium Disproportionation Iridium Analytical Chemistry (journal) Valence electron Crystallography Electron Physical chemistry Spectroscopy

Metrics

8
Cited By
0.20
FWCI (Field Weighted Citation Impact)
40
Refs
0.63
Citation Normalized Percentile
Is in top 1%
Is in top 10%

Citation History

Topics

Advanced Condensed Matter Physics
Physical Sciences →  Physics and Astronomy →  Condensed Matter Physics
Electronic and Structural Properties of Oxides
Physical Sciences →  Materials Science →  Materials Chemistry
Magnetic and transport properties of perovskites and related materials
Physical Sciences →  Materials Science →  Electronic, Optical and Magnetic Materials

Related Documents

JOURNAL ARTICLE

Tuning the giant magnetoelastic transition in Ba3BiIr2O9 and Ba3BiRu2O9

Zixin HuangMaxim AvdeevBrendan J. KennedyKevin S. KnightQingdi ZhouChris D. Ling

Journal:   Journal of Physics Condensed Matter Year: 2014 Vol: 26 (27)Pages: 276003-276003
JOURNAL ARTICLE

Über Ba3CaU2O9 und Ba3SrU2O9 / On Ba3CaU2O9 and Ba3SrU2O9

S. Kemmler‐SackI. Wall

Journal:   Zeitschrift für Naturforschung B Year: 1971 Vol: 26 (11)Pages: 1089-1090
JOURNAL ARTICLE

Key Role of Bismuth in the Magnetoelastic Transitions of Ba3BiIr2O9 and Ba3BiRu2O9 As Revealed by Chemical Doping

Peter E. R. BlanchardZixin HuangBrendan J. KennedySamuel LiuWojciech MiillerEmily ReynoldsQingdi ZhouMaxim AvdeevZhaoming ZhangJade B. AitkenBruce C. C. CowieLing‐Yun JangThiam Teck TanSean LiChris D. Ling

Journal:   Inorganic Chemistry Year: 2013 Vol: 53 (2)Pages: 952-960
JOURNAL ARTICLE

ChemInform Abstract: Key Role of Bismuth in the Magnetoelastic Transitions of Ba3BiIr2O9 and Ba3BiRu2O9 as Revealed by Chemical Doping.

Chris D. Linget al. et al.

Journal:   ChemInform Year: 2014 Vol: 45 (13)
JOURNAL ARTICLE

Chemical preparation and XRD data for four cyclotriphosphates: Ba3(P3O9)2·4H2O, BaNH4P3O9·2H2O, BaTlP3O9·2H2O, and BaTlP3O9·Ba3(P3O9)2·4H2O

Aziz KheireddineMalika TridaneSaïd Belaaouad

Journal:   Powder Diffraction Year: 2012 Vol: 27 (1)Pages: 32-35
© 2026 ScienceGate Book Chapters — All rights reserved.