Strong Ferromagnetic Coupling of {[Cu(Hpht)(N3)]·H2O}n with Simultaneous End-on Azido and Carboxylato Bridges: a First Principle Study

The compound {[Cu(Hpht)(N3)]·H2O}n(Hpht=hydrogen phthalate) is formed by chains of copper atoms bridged simultaneously by syn-syn carboxylato and end-on azido bridges. Taking into account the large Cu-O(1)-C(7) bond angle of the single carboxylato bridge (131°), or the large Cu-N(11)-Cu bond angle o...

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Bibliographic Details
Published in:Communications in theoretical physics 2005-02, Vol.43 (2), p.349-352
Main Author: YAOKai-Lun ZUFeng-Xia LIUZu-Li ZOUWei-Dong
Format: Article
Language:English
Subjects:
半导体
自旋偏振
超交换作用
量子效应
铁磁耦合
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Summary:The compound {[Cu(Hpht)(N3)]·H2O}n(Hpht=hydrogen phthalate) is formed by chains of copper atoms bridged simultaneously by syn-syn carboxylato and end-on azido bridges. Taking into account the large Cu-O(1)-C(7) bond angle of the single carboxylato bridge (131°), or the large Cu-N(11)-Cu bond angle of the azido bridge (111.9°), a moderately intrachain antiferromagnetic behavior should be expected for the compound. This paper is devoted to examining the apparently anomalous intrachain ferromagnetic behavior of {[Cu(Hpht)(N3)]·H2O}n, using first principles within the full potential linearized augmented plane wave (FP-LAPW) method. The total energy, the density of states (DOS), and the spin distributions are obtained. The atomic spin distribution has been analyzed as resulting from the interplay of electron delocalization and spin polarization. The DOS reveals a surprisingly strong exchange interaction between the d type orbitals of the copper and the π molecular orbitals of the two ligands.
ISSN:0253-6102
DOI:10.1088/0253-6102/43/2/030