S. Kadota scite author profile

Here we show that the low-temperature oxygen-storage capability of RBaCo 4 O 7+δ (R ) Y, Dy, Ho, Er, Tm, Yb, and Lu) depends on the size of the rare earth constituent R. For all these R constituents the RBaCo 4 O 7+δ phase can be charged and discharged with large amounts of oxygen in a narrow temperature range below 400 °C. With decreasing ionic radius, r(R III ), the oxygen-release temperature (T R ) decreases while the temperature where the phase decomposes (T D ) increases such that the "safety window" between T R and T D widens. On the other hand, the maximum amount of excess oxygen taken by the RBaCo 4 O 7+δ lattice in 1 atm O 2 decreases from δ ≈ 1.4 (for R ) Dy) to ∼1.0 (for R ) Lu) with decreasing r(R III ). Hence the optimum oxygen-storage characteristics are found about R ) Tm in terms of r(R III ). We also discuss the crystal structures of the oxygen-annealed RBaCo 4 O 7+δ samples.

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Uncommon oxygen intake/release capability of layered cobalt oxides, REBaCo4O7+: Novel oxygen-storage materials

Motohashi

Kadota

Fjellvåg

et al. 2008

Materials Science and Engineering: B

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et al. 2018

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Kadota

Terashima

Kikuchi

et al. 1992

Tetrahedron Letters

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S. Kadota

R-Site Substitution Effect on the Oxygen-Storage Capability of RBaCo₄O_7+δ

Uncommon oxygen intake/release capability of layered cobalt oxides, REBaCo4O7+: Novel oxygen-storage materials

Memantine ameliorates depressive-like behaviors by regulating hippocampal cell proliferation and neuroprotection in olfactory bulbectomized mice

Palbinone, a potent inhibitor of 3α-hydroxy dehydrogenase from

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S. Kadota

R-Site Substitution Effect on the Oxygen-Storage Capability of RBaCo4O7+δ

Uncommon oxygen intake/release capability of layered cobalt oxides, REBaCo4O7+: Novel oxygen-storage materials

Memantine ameliorates depressive-like behaviors by regulating hippocampal cell proliferation and neuroprotection in olfactory bulbectomized mice

Palbinone, a potent inhibitor of 3α-hydroxy dehydrogenase from

Contact Info

Product

Resources

About

R-Site Substitution Effect on the Oxygen-Storage Capability of RBaCo₄O_7+δ