Large magnetoresistance and charge transfer between the conduction and magnetic electrons in layered oxyselenide BiOCu0.96Se

Sunil K. Karna; Chi-Hang Hung; Chun-Ming Wu; Chin-Wei Wang; Wen-Hsien Li; Raman Sankar; Fang Cheng Chou; Maxim Avdeev

doi:10.1039/C3DT52245H

Large magnetoresistance and charge transfer between the conduction and magnetic electrons in layered oxyselenide BiOCu_0.96Se

Sunil K. Karna,^a Chi-Hang Hung,^a Chun-Ming Wu,^a Chin-Wei Wang,^a Wen-Hsien Li,*^a Raman Sankar,^b Fang Cheng Chou^b and Maxim Avdeev^c

Author affiliations

* Corresponding authors

^a Department of Physics and Center for Neutron Beam Applications, National Central University, Jhongli 32001, Taiwan
E-mail: whli@phy.ncu.edu.tw

^b Center for Condensed Matter Sciences, National Taiwan University, Taipei 10617, Taiwan

^c Bragg Institute, Australian Nuclear Science and Technology Organization, Lucas Heights, NSW 2234, Australia

Abstract

The electrical and magnetic properties of slightly Cu-deficient BiOCu_0.96Se have been investigated using neutron and X-ray diffraction, ac magnetic susceptibility, magnetization and electric resistivity measurements. The layered BiOCu_0.96Se crystallizes into a tetragonal lattice with a P4/nmm symmetry. Thermal profiles of the electrical resistivity reveal a semiconductor type behavior, but depart from its course at low temperatures when antiferromagnetic coupling becomes thermally loosened at 140 K. Positive magnetoresistances are obtained at all temperatures studied. With an applied magnetic field of 0.5 kOe, the magnetoresistance reaches 235% at 2 K. It decreases with increasing temperature, but stabilizes to 70% above 60 K. Both ferromagnetic and antiferromagnetic coupling are detected between the Cu spins in the SeCu₄ pyramidal blocks, which results in a non-collinear spin arrangement at low temperatures. The antiferromagnetic component becomes disordered above T_N = 140 K, whereas the ferromagnetic moment persists up to T_C = 300 K. Interlayer charge transfer between the conduction and magnetic electrons gives rise to an anomaly in the magnetic order parameter.

Article information

https://doi.org/10.1039/C3DT52245H

Article type

Paper

Submitted

17 Aug 2013

Accepted

21 Aug 2013

First published

27 Aug 2013

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Dalton Trans., 2013,42, 15581-15590

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Large magnetoresistance and charge transfer between the conduction and magnetic electrons in layered oxyselenide BiOCu_0.96Se

S. K. Karna, C. Hung, C. Wu, C. Wang, W. Li, R. Sankar, F. C. Chou and M. Avdeev, Dalton Trans., 2013, 42, 15581 DOI: 10.1039/C3DT52245H

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Dalton Transactions

Large magnetoresistance and charge transfer between the conduction and magnetic electrons in layered oxyselenide BiOCu_0.96Se

Abstract

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Large magnetoresistance and charge transfer between the conduction and magnetic electrons in layered oxyselenide BiOCu_0.96Se

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