Enhancement of the Curie temperature in NdBaCo 2O 5.5 by A-site Ca substitution

S. Kolesnik; B. Dabrowski; O. Chmaissem; S. Avci; J. P. Hodges; M. Avdeev; K. Wierczek

doi:10.1103/PhysRevB.86.064434

Enhancement of the Curie temperature in NdBaCo ₂O _5.5 by A-site Ca substitution

S. Kolesnik^*, B. Dabrowski, O. Chmaissem, S. Avci, J. P. Hodges, M. Avdeev, K. Wierczek

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

11 Citations (Scopus)

Abstract

Layered cobaltites RBaCo ₂O _5.5 (R = rare earth and Y) undergo a sequence of magnetic and electronic transitions between antiferromagnetic/ferrimagnetic/paramagnetic and insulating/paramagnetic metallic states with respective transition temperatures T _N (∼230-260K) < T _C (∼250-290K) < T _MI (∼360K). We have synthesized a Nd _1-xCa _xBaCo ₂O _5.5 series (0 ≤ x ≤ 0.2) of cation-[(Nd,Ca)/Ba]- ordered and oxygen vacancy-ordered materials and investigated them by neutron diffraction, magnetization, and electronic and thermal transport. We observe that upon Ca doping, T _N is decreasing to 0 for x = 0.1 and T _C is increasing and coincides with T _MI for x > 0.12, which weakly changes with Ca substitution from ∼360 to ∼340K. This is the largest enhancement of T _C observed for these cobaltites. Unlike hole doping by adding oxygen, Ca doping does not disrupt the cation and oxygen vacancy orderings up to x = 0.20.

Original language	English
Article number	064434
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	86
Issue number	6
DOIs	https://doi.org/10.1103/PhysRevB.86.064434
Publication status	Published - 24 Aug 2012
Externally published	Yes

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title = "Enhancement of the Curie temperature in NdBaCo 2O 5.5 by A-site Ca substitution",

abstract = "Layered cobaltites RBaCo 2O 5.5 (R = rare earth and Y) undergo a sequence of magnetic and electronic transitions between antiferromagnetic/ferrimagnetic/paramagnetic and insulating/paramagnetic metallic states with respective transition temperatures T N (∼230-260K) < T C (∼250-290K) < T MI (∼360K). We have synthesized a Nd 1-xCa xBaCo 2O 5.5 series (0 ≤ x ≤ 0.2) of cation-[(Nd,Ca)/Ba]- ordered and oxygen vacancy-ordered materials and investigated them by neutron diffraction, magnetization, and electronic and thermal transport. We observe that upon Ca doping, T N is decreasing to 0 for x = 0.1 and T C is increasing and coincides with T MI for x > 0.12, which weakly changes with Ca substitution from ∼360 to ∼340K. This is the largest enhancement of T C observed for these cobaltites. Unlike hole doping by adding oxygen, Ca doping does not disrupt the cation and oxygen vacancy orderings up to x = 0.20.",

author = "S. Kolesnik and B. Dabrowski and O. Chmaissem and S. Avci and Hodges, {J. P.} and M. Avdeev and K. Wierczek",

year = "2012",

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doi = "10.1103/PhysRevB.86.064434",

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T1 - Enhancement of the Curie temperature in NdBaCo 2O 5.5 by A-site Ca substitution

AU - Kolesnik, S.

AU - Dabrowski, B.

AU - Chmaissem, O.

AU - Avci, S.

AU - Hodges, J. P.

AU - Avdeev, M.

AU - Wierczek, K.

PY - 2012/8/24

Y1 - 2012/8/24

N2 - Layered cobaltites RBaCo 2O 5.5 (R = rare earth and Y) undergo a sequence of magnetic and electronic transitions between antiferromagnetic/ferrimagnetic/paramagnetic and insulating/paramagnetic metallic states with respective transition temperatures T N (∼230-260K) < T C (∼250-290K) < T MI (∼360K). We have synthesized a Nd 1-xCa xBaCo 2O 5.5 series (0 ≤ x ≤ 0.2) of cation-[(Nd,Ca)/Ba]- ordered and oxygen vacancy-ordered materials and investigated them by neutron diffraction, magnetization, and electronic and thermal transport. We observe that upon Ca doping, T N is decreasing to 0 for x = 0.1 and T C is increasing and coincides with T MI for x > 0.12, which weakly changes with Ca substitution from ∼360 to ∼340K. This is the largest enhancement of T C observed for these cobaltites. Unlike hole doping by adding oxygen, Ca doping does not disrupt the cation and oxygen vacancy orderings up to x = 0.20.

AB - Layered cobaltites RBaCo 2O 5.5 (R = rare earth and Y) undergo a sequence of magnetic and electronic transitions between antiferromagnetic/ferrimagnetic/paramagnetic and insulating/paramagnetic metallic states with respective transition temperatures T N (∼230-260K) < T C (∼250-290K) < T MI (∼360K). We have synthesized a Nd 1-xCa xBaCo 2O 5.5 series (0 ≤ x ≤ 0.2) of cation-[(Nd,Ca)/Ba]- ordered and oxygen vacancy-ordered materials and investigated them by neutron diffraction, magnetization, and electronic and thermal transport. We observe that upon Ca doping, T N is decreasing to 0 for x = 0.1 and T C is increasing and coincides with T MI for x > 0.12, which weakly changes with Ca substitution from ∼360 to ∼340K. This is the largest enhancement of T C observed for these cobaltites. Unlike hole doping by adding oxygen, Ca doping does not disrupt the cation and oxygen vacancy orderings up to x = 0.20.

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JO - Physical Review B - Condensed Matter and Materials Physics

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ER -

Enhancement of the Curie temperature in NdBaCo ₂O _5.5 by A-site Ca substitution

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