Pressure/temperature/substitution-induced melting of A-site charge disproportionation in Bi_(1-x)La_(x)NiO_3 (0 =< x =< 0.5)

E. Nishibori; I. Terasaki; K. Kato; M. Azuma; M. Hanawa; M. Sakata; M. Takano; M. Takata; S. Ishiwata; Y. Moritomo

arxiv: cond-mat/0502066 · v3 · submitted 2005-02-02 · ❄️ cond-mat.str-el

Pressure/temperature/substitution-induced melting of A-site charge disproportionation in Bi_(1-x)La_(x)NiO₃ (0 =< x =< 0.5)

S. Ishiwata , M. Azuma , M. Hanawa , Y. Moritomo , Y. Ohishi , K. Kato , M. Takata , E. Nishibori

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M. Sakata I. Terasaki M. Takano

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classification ❄️ cond-mat.str-el

keywords a-siteanio3chargedisproportionationligand-holemeltingmetallicphase

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Metal-insulator transitions strongly coupled with lattice were found in Bi1-xLaxNiO3. Synchrotron X-ray powder diffraction revealed that pressure (P ~ 3 GPa, T = 300 K), temperature (T ~ 340 K, x = 0.05), and La-substitution (x ~ 0.075, T = 300 K) caused the similar structural change from a triclinic (insulating) to an orthorhombic (metallic) symmetry, suggesting melting of the A-site charge disproportionation. Comparing crystal structure and physical properties with the other ANiO3 series, an electronic state of the metallic phase can be described as [A3+Ld, Ni2+L1-d], where a ligand-hole L contributes to a conductivity. We depicted a schematic P-T phase diagram of BiNiO3 including a critical point (3 GPa, 300 K) and an inhomogeneous region, which implies universality of ligand-hole dynamics in ANiO3 (A = Bi, Pr, Nd,...).

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Pressure/temperature/substitution-induced melting of A-site charge disproportionation in Bi_(1-x)La_(x)NiO₃ (0 =< x =< 0.5)

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