Electride and superconductivity behaviors in Mn5Si3-type intermetallics

Electride and superconductivity behaviors in Mn5Si3-type intermetallics

Intermetallics: Superconductivity coexists with electride behavior Coexistence of electride behavior and superconductivity is observed in a hexagonal phase of a Nb5Ir3 intermetallic with tunable electronic properties by introducing foreign atoms. A team led by Yaoqing Zhang and Hideo Hosono from Jap...

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Main Authors: Yaoqing Zhang, Bosen Wang, Zewen Xiao, Yangfan Lu, Toshio Kamiya, Yoshiya Uwatoko, Hiroshi Kageyama, Hideo Hosono
Format: Article
Language:English
Published: Nature Publishing Group 2017-08-01
Series:npj Quantum Materials
Online Access:https://doi.org/10.1038/s41535-017-0053-4
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spelling doaj-241d4315b2314dfaa8af76a5ea790fa42021-04-02T20:15:11ZengNature Publishing Groupnpj Quantum Materials2397-46482017-08-01211710.1038/s41535-017-0053-4Electride and superconductivity behaviors in Mn5Si3-type intermetallicsYaoqing Zhang0Bosen Wang1Zewen Xiao2Yangfan Lu3Toshio Kamiya4Yoshiya Uwatoko5Hiroshi Kageyama6Hideo Hosono7ACCEL Project, Japan Science and Technology Agency (JST)Institute for Solid State Physics, University of TokyoMaterials Research Center for Element Strategy, Tokyo Institute of TechnologyACCEL Project, Japan Science and Technology Agency (JST)Materials Research Center for Element Strategy, Tokyo Institute of TechnologyInstitute for Solid State Physics, University of TokyoDepartment of Energy & Hydrocarbon Chemistry, Kyoto UniversityACCEL Project, Japan Science and Technology Agency (JST)Intermetallics: Superconductivity coexists with electride behavior Coexistence of electride behavior and superconductivity is observed in a hexagonal phase of a Nb5Ir3 intermetallic with tunable electronic properties by introducing foreign atoms. A team led by Yaoqing Zhang and Hideo Hosono from Japan Science and Technology Agency and Tokyo Institute of Technology report a new hexagonal phase in the phase diagram of Nb–Ir binary intermetallics with interesting interplay of superconductivity and electride state. The electride state is formed by electrons detaching from the atoms but localizing in a one-dimensional channel space. This electride becomes a superconductor below a transition temperature of about 9.4 K, which could be enhanced to 10.5 K upon filling interstitial cavities with foreign oxygens. The results suggest a general rule governing the formation of electrides and form the basis for novel stable functional electrides.https://doi.org/10.1038/s41535-017-0053-4
collection DOAJ
language English
format Article
sources DOAJ
author Yaoqing Zhang
Bosen Wang
Zewen Xiao
Yangfan Lu
Toshio Kamiya
Yoshiya Uwatoko
Hiroshi Kageyama
Hideo Hosono
spellingShingle Yaoqing Zhang
Bosen Wang
Zewen Xiao
Yangfan Lu
Toshio Kamiya
Yoshiya Uwatoko
Hiroshi Kageyama
Hideo Hosono
Electride and superconductivity behaviors in Mn5Si3-type intermetallics
npj Quantum Materials
author_facet Yaoqing Zhang
Bosen Wang
Zewen Xiao
Yangfan Lu
Toshio Kamiya
Yoshiya Uwatoko
Hiroshi Kageyama
Hideo Hosono
author_sort Yaoqing Zhang
title Electride and superconductivity behaviors in Mn5Si3-type intermetallics
title_short Electride and superconductivity behaviors in Mn5Si3-type intermetallics
title_full Electride and superconductivity behaviors in Mn5Si3-type intermetallics
title_fullStr Electride and superconductivity behaviors in Mn5Si3-type intermetallics
title_full_unstemmed Electride and superconductivity behaviors in Mn5Si3-type intermetallics
title_sort electride and superconductivity behaviors in mn5si3-type intermetallics
publisher Nature Publishing Group
series npj Quantum Materials
issn 2397-4648
publishDate 2017-08-01
description Intermetallics: Superconductivity coexists with electride behavior Coexistence of electride behavior and superconductivity is observed in a hexagonal phase of a Nb5Ir3 intermetallic with tunable electronic properties by introducing foreign atoms. A team led by Yaoqing Zhang and Hideo Hosono from Japan Science and Technology Agency and Tokyo Institute of Technology report a new hexagonal phase in the phase diagram of Nb–Ir binary intermetallics with interesting interplay of superconductivity and electride state. The electride state is formed by electrons detaching from the atoms but localizing in a one-dimensional channel space. This electride becomes a superconductor below a transition temperature of about 9.4 K, which could be enhanced to 10.5 K upon filling interstitial cavities with foreign oxygens. The results suggest a general rule governing the formation of electrides and form the basis for novel stable functional electrides.
url https://doi.org/10.1038/s41535-017-0053-4
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