Studies of two lanthanide coordination polymers built up from dinuclear units

The two three-dimensional oxo-bfidged lanthanides {[Ln2(C4H2O4)3(H20)4]· 3H2O}3, with Ln=Ho3+ (1); Gd3+ (2), are isomorphous. They have layer-type structures built up from non-centrosymrnetric dinuclear unit Ln2O12(H2O)4, beside three lattice H20 molecules stabilizing the 3D open-frmnework. The buil...

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Bibliographic Details
Published in:Journal of rare earths 2013, Vol.31 (1), p.85-93
Main Authors: Benmerad, B., Aliouane, K., Rahahlia, N., Guehria-Laïdoudi, A., Dahaoui, S., Lecomte, C.
Format: Article
Language:English
Subjects:
Bonding strength
Bridges (structures)
Chemical Sciences
Coordination polymers
Cristallography
crystal structure
Ferromagnetism
lanthanide organic frameworks
Lanthanides
Lattices
magnetic interactions
Rare earth metals
rare earths
thermal behavior
Three dimensional
单元
双核
反铁磁性
反铁磁相互作用
施工单位
磁学性质
稀土
配位聚合物
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Summary:The two three-dimensional oxo-bfidged lanthanides {[Ln2(C4H2O4)3(H20)4]· 3H2O}3, with Ln=Ho3+ (1); Gd3+ (2), are isomorphous. They have layer-type structures built up from non-centrosymrnetric dinuclear unit Ln2O12(H2O)4, beside three lattice H20 molecules stabilizing the 3D open-frmnework. The building entities are linked through one classical syn-anti g2-carboxylato-K1O:K^1O' bridge. Within the bi-polyhedra, two double μ2-O'; K2O,O' bridges and a syn-syn classical one, support the magnetic measurements carried out on holmium compound indicating relatively weak anti-ferromagnetic interactions. The compari- son with magnetic studies on the almost similar reported Gd(III) compound, suggested that concomitant antiferromagnetic and ferro- magnetic properties could not be excluded. The two distinct thermal behaviors evidenced the higher metal-water bond strength with the smaller cation, and revealed the great supramolecular effects generated by hydrogen-bonding patterns.
ISSN:1002-0721
2509-4963
DOI:10.1016/S1002-0721(12)60240-3