Crystal growth and transport properties of spin ladder compounds La4+4nCu8+2nO14+8n (n = 2, 3)

T. Watanabe; C. Sekar; H. Shibata; A. Matsuda; Y. Zenitani; J. Akimitsu

doi:10.1016/S0921-4534(01)00256-8

Crystal growth and transport properties of spin ladder compounds La_4+4nCu_8+2nO_14+8n (n = 2, 3)

T. Watanabe, C. Sekar, H. Shibata, A. Matsuda, Y. Zenitani, J. Akimitsu

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

1 Citation (Scopus)

Abstract

Here we summarize recent progress on the study of spin ladder compounds, La₂Cu₂O₅ (four-leg) and La₈Cu₇O₁₉ (five-leg), n = 2 and 3 members of the homologous series La_4+4nCu_8+2nO_14+8n. Following the successful crystal growth of La₂Cu₂O₅, we grew a pure-phase five-leg system La₈Cu₇O₁₉ by a modified slow cooling method. The room-temperature resistivity of the as-grown La₈Cu₇O₁₉ crystal was 1.9 Ω cm, which is much lower than that of the La₂Cu₂O₅ crystals (≈ 1.7 × 10³ Ω cm). A significant drop in the resistivity (11.0 mΩ cm at 300 K) was observed upon hole doping by means of high oxygen-pressure annealing, although no transition was observed from the semiconducting behavior. In addition, a new crystal growth method to enhance hole doping level of La₂Cu₂O₅ is shown.

Original language	English
Pages (from-to)	380-383
Number of pages	4
Journal	Physica C: Superconductivity and its applications
Volume	357-360
DOIs	https://doi.org/10.1016/S0921-4534(01)00256-8
Publication status	Published - Aug 2001
Externally published	Yes

Keywords

AgO
Flux growth
La CuO
LaCuO
Resistivity
Single crystal
Spin ladder

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Condensed Matter Physics
Energy Engineering and Power Technology
Electrical and Electronic Engineering

Access to Document

10.1016/S0921-4534(01)00256-8

Cite this

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title = "Crystal growth and transport properties of spin ladder compounds La4+4nCu8+2nO14+8n (n = 2, 3)",

abstract = "Here we summarize recent progress on the study of spin ladder compounds, La2Cu2O5 (four-leg) and La8Cu7O19 (five-leg), n = 2 and 3 members of the homologous series La4+4nCu8+2nO14+8n. Following the successful crystal growth of La2Cu2O5, we grew a pure-phase five-leg system La8Cu7O19 by a modified slow cooling method. The room-temperature resistivity of the as-grown La8Cu7O19 crystal was 1.9 Ω cm, which is much lower than that of the La2Cu2O5 crystals (≈ 1.7 × 103 Ω cm). A significant drop in the resistivity (11.0 mΩ cm at 300 K) was observed upon hole doping by means of high oxygen-pressure annealing, although no transition was observed from the semiconducting behavior. In addition, a new crystal growth method to enhance hole doping level of La2Cu2O5 is shown.",

keywords = "AgO, Flux growth, La CuO, LaCuO, Resistivity, Single crystal, Spin ladder",

author = "T. Watanabe and C. Sekar and H. Shibata and A. Matsuda and Y. Zenitani and J. Akimitsu",

year = "2001",

month = aug,

doi = "10.1016/S0921-4534(01)00256-8",

language = "English",

volume = "357-360",

pages = "380--383",

journal = "Physica C: Superconductivity and its applications",

issn = "0921-4534",

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TY - JOUR

T1 - Crystal growth and transport properties of spin ladder compounds La4+4nCu8+2nO14+8n (n = 2, 3)

AU - Watanabe, T.

AU - Sekar, C.

AU - Shibata, H.

AU - Matsuda, A.

AU - Zenitani, Y.

AU - Akimitsu, J.

PY - 2001/8

Y1 - 2001/8

N2 - Here we summarize recent progress on the study of spin ladder compounds, La2Cu2O5 (four-leg) and La8Cu7O19 (five-leg), n = 2 and 3 members of the homologous series La4+4nCu8+2nO14+8n. Following the successful crystal growth of La2Cu2O5, we grew a pure-phase five-leg system La8Cu7O19 by a modified slow cooling method. The room-temperature resistivity of the as-grown La8Cu7O19 crystal was 1.9 Ω cm, which is much lower than that of the La2Cu2O5 crystals (≈ 1.7 × 103 Ω cm). A significant drop in the resistivity (11.0 mΩ cm at 300 K) was observed upon hole doping by means of high oxygen-pressure annealing, although no transition was observed from the semiconducting behavior. In addition, a new crystal growth method to enhance hole doping level of La2Cu2O5 is shown.

AB - Here we summarize recent progress on the study of spin ladder compounds, La2Cu2O5 (four-leg) and La8Cu7O19 (five-leg), n = 2 and 3 members of the homologous series La4+4nCu8+2nO14+8n. Following the successful crystal growth of La2Cu2O5, we grew a pure-phase five-leg system La8Cu7O19 by a modified slow cooling method. The room-temperature resistivity of the as-grown La8Cu7O19 crystal was 1.9 Ω cm, which is much lower than that of the La2Cu2O5 crystals (≈ 1.7 × 103 Ω cm). A significant drop in the resistivity (11.0 mΩ cm at 300 K) was observed upon hole doping by means of high oxygen-pressure annealing, although no transition was observed from the semiconducting behavior. In addition, a new crystal growth method to enhance hole doping level of La2Cu2O5 is shown.

KW - AgO

KW - Flux growth

KW - La CuO

KW - LaCuO

KW - Resistivity

KW - Single crystal

KW - Spin ladder

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