Relation between the Co-O bond lengths and the spin state of Co in layered 
Cobaltates: a high-pressure study

Chin, Yi-Ying; Lin, Hong-Ji; Hu, Zhiwei; Kuo, Chang-Yang; Mikhailova, Daria; Lee, Jenn-Min; Haw, Shu-Chih; Chen, Shin-An; Schnelle, Walter; Ishii, Hirofumi; Hiraoka, Nozomu; Liao, Yen-Fa; Tsuei, Ku-Ding; Tanaka, Arata; Tjeng, Liu Hao; Chen, Chien-Te; Chen, Jin-Ming

doi:10.1038/s41598-017-03950-z

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Relation between the Co-O bond lengths and the spin state of Co in layered Cobaltates: a high-pressure study

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Kuo, Chang-Yang
Physics of Correlated Matter, Max Planck Institute for Chemical Physics of Solids, Max Planck Society;

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Mikhailova, Daria
Daria Mikhailova, Physics of Correlated Matter, Max Planck Institute for Chemical Physics of Solids, Max Planck Society;

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Schnelle, Walter
Walter Schnelle, Inorganic Chemistry, Max Planck Institute for Chemical Physics of Solids, Max Planck Society;

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Tjeng, Liu Hao
Liu Hao Tjeng, Physics of Correlated Matter, Max Planck Institute for Chemical Physics of Solids, Max Planck Society;

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Zitation

Chin, Y.-Y., Lin, H.-J., Hu, Z., Kuo, C.-Y., Mikhailova, D., Lee, J.-M., et al. (2017). Relation between the Co-O bond lengths and the spin state of Co in layered Cobaltates: a high-pressure study. Scientific Reports, 7: 3656, pp. 1-9. doi:10.1038/s41598-017-03950-z.

Zitierlink: https://hdl.handle.net/11858/00-001M-0000-002D-AE3F-2

Zusammenfassung

The pressure-response of the Co-O bond lengths and the spin state of Co ions in a hybrid 3d-5d solid-state oxide Sr2Co0.5Ir0.5O4 with a layered K2NiF4-type structure was studied by using hard X-ray absorption and emission spectroscopies. The Co-K and the Ir-L-3 X-ray absorption spectra demonstrate that the Ir5+ and the Co3+ valence states at ambient conditions are not affected by pressure. The Co Ka emission spectra, on the other hand, revealed a gradual spin state transition of Co3+ ions from a highspin (S = 2) state at ambient pressure to a complete low-spin state (S = 0) at 40 GPa without crossing the intermediate spin state (S = 1). This can be well understood from our calculated phase diagram in which we consider the energies of the low spin, intermediate spin and high spin states of Co3+ ions as a function of the anisotropic distortion of the octahedral local coordination in the layered oxide. We infer that a short in-plane Co-O bond length (<1.90 angstrom) as well as a very large ratio of Co-O-apex/Co-Oin-plane is needed to stabilize the IS Co3+, a situation which is rarely met in reality.