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Publication: Extrinsic origin of the insulating behavior of polygrain icosahedral Al-Pd-Re quasicrystals

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Title Extrinsic origin of the insulating behavior of polygrain icosahedral Al-Pd-Re quasicrystals
Authors/Editors* J. Dolinsek, P.J. McGuiness, M. Klanjsek, I. Smiljanic, A. Smontara, E.S. Zijlstra, S.K. Bose, I.R. Fisher, M.J. Kramer, and P.C. Canfield
Where published* Physical Review B
How published* Journal
Year* 2006
Volume 74
Number
Pages 134201
Publisher Americal Physical Society
Keywords
Link http://link.aps.org/abstract/PRB/v74/e134201
Abstract
Polygrain icosahedral i-Al-Pd-Re quasicrystals are known to exhibit dramatically different electronic transport properties to other Al-based quasicrystals. By performing comparative experimental and theoretical studies of the electronic transport and electronic structure of polygrain and monocrystalline i-Al-Pd-Re samples, we show that the extraordinarily high electrical resistivity and the metal-to-insulator transition in the polygrain material are not intrinsic properties of the quasiperiodic lattice, but are of extrinsic origin due to the high porosity and the oxygen-rich weakly insulating regions in the material. We also compare theoretical electronic structures and experimental electrical resistivities of monocrystalline i-Al-Pd-Re and i-Al-Pd-Mn quasicrystals and show that there are no significant differences between these two isomorphous compounds, suggesting that i-Al-Pd-Re is on common ground with other Al-based quasicrystals. We present a structural model of i-Al-Pd-Re.
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