Molecular-based conducting magnet 被引量：2

Molecular-based conducting magnet

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摘要 Molecular-based conducting magnet or magnetic conductor, is an overlap of organic conductor and molecular magnet. Due to the existence of ferromagnetism, antiferromagnetism and quantum magnetism in insulated charge-transfer salt, it becomes a common sense that magnetism is not good for conductivity. After the discovery of first molecular-based metallic ferromagnet, molecular-based conducting magnet with -unit from organic conductor and magnetism from coordination counterion became a hot area. The metallic ferromagnet, semiconductor room-temperature ferrimagnet, metallic weak ferromagnet and supercon-ducting antiferromagnet have been discovered. The new molecular-based conducting magnet with higher conductivity and higher magnetic ordering temperature is expected. Molecular-based conducting magnet or magnetic conductor, is an overlap of organic conductor and molecular magnet. Due to the existence of ferromagnetism, antiferromagnetism and quantum magnetism in insulated charge-transfer salt, it becomes a common sense that magnetism is not good for conductivity. After the discovery of first molecular-based metallic ferromagnet, molecular-based conducting magnet with n-unit from organic conductor and magnetism from coordination counterion became a hot area. The metallic ferromagnet, semiconductor room-temperature ferrimagnet, metallic weak ferromagnet and supercon- ducting antiferromagnet have been discovered. The new molecular-based conducting magnet with higher conductivity and higher magnetic ordering temperature is expected.

作者 ZHANG Bin ZHU DaoBen

机构地区 Beijing National Laboratory of Molecular Science

出处《Science China Chemistry》 SCIE EI CAS 2012年第6期883-892,共10页 中国科学（化学英文版）

基金 financially supported by the National Natural Science Foundation of China (21173230) MOST (2011CE93202)

关键词分子磁体磁铁反铁磁性有机导体电荷转移盐铁磁体电导率金属 molecular magnet, molecular conductor, dual-function molecular crystal, conductivity, magnetism

分类号 TM27 [一般工业技术—材料科学与工程] TF125.8 [冶金工程—粉末冶金]

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同被引文献7

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2012年第6期

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