M. Hamadène scite author profile

Correlative studies of three oxalato-bridged polymers, obtained under hydrothermal conditions for the two isostructural compounds {Rb(HC2O4)(H2C2O4)(H2O)2}∞1, 1, {H3O(HC2O4)(H2C2O4).2H2O}∞1, 2, and by conventional synthetic method for {Rb(HC2O4)}∞3, 3, allowed the identification of H-bond patterns and structural dimensionality. Ferroïc domain structures are confirmed by electric measurements performed on 3. Although 2 resembles one oxalic acid sesquihydrate, its structure determination doesn’t display any kind of disorder and leads to recognition of a supramolecular network identical to hybrid s-block series, where moreover, unusual H3O+ and NH4+ similarity is brought out. Thermal behaviors show that 1D frameworks with extended H-bonds, whether with or without a metal center, have the same stability. Inversely, despite the dimensionalities, the same metallic intermediate and final compounds are obtained for the two Rb+ ferroïc materials.

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Poly[diaquadi-μ₆-oxalato-μ₅-oxalato-chromium(III)rubidium(I)]: a new supramolecular isomer

Kherfi

Hamadène

Guehria-Laïdoudî

et al. 2011

Acta Crystallogr C

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The title compound, [CrRb(C(2)O(4))(2)(H(2)O)(2)](n), obtained under hydrothermal conditions and investigated structurally at 100 K, is a three-dimensional supramolecular isomer of the layered structure compound studied at room temperature. This novel polymer is built up from crosslinked heterobimetallic units. The linkage of alternating edge- and vertex-shared RbO(7)(H(2)O)(2) and CrO(4)(H(2)O)(2) polyhedra running along three different directions gives a dense packing. The two independent ligands display two η(4)-chelation modes and two conventional carboxylate bridges. However, the pentadentate ligand connects the Cr(III) and Rb(I) ions through one O-atom bridge, while the hexadentate ligand exhibits an additional η(3)-chelation and two O-atom bridges. Each coordinated water molecule forms an O-atom bridge between the two metals. Moreover, in the absence of protonated ligands, these water molecules act as donors through their four H atoms in strong-to-weak hydrogen bonds. This results in zigzag chains of alternating oxalate and aqua ligands parallel to the twofold screw axis. The six double oxalates known to date containing an alkali and Cr(III) all present layered two-dimensional structures. In the series, this supramolecular isomer is the first three-dimensional framework.

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New oxyfluoride lead-free ferroelectric relaxors in the BaTiO3–BaZrO3–CaLiF3 system

Aliouane

Hamadène

Guehria-Laïdoudî

et al. 2000

Journal of Fluorine Chemistry

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Phase transition in the ternary fluorides Li₃Alf₆and Li₃CrF₆

Hamadène¹,

Grannec

Guehria³

et al. 2001

Phase Transitions

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Phase transition, ferroelasticity and ferroelectricity in Li3InF6

et al. 1996

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M. Hamadène

Synthesis, Structure and Thermal Behavior of Oxalato-Bridged Rb+ and H3O+ Extended Frameworks with Different Dimensionalities

Poly[diaquadi-μ₆-oxalato-μ₅-oxalato-chromium(III)rubidium(I)]: a new supramolecular isomer

New oxyfluoride lead-free ferroelectric relaxors in the BaTiO3–BaZrO3–CaLiF3 system

Phase transition in the ternary fluorides Li₃Alf₆and Li₃CrF₆

Phase transition, ferroelasticity and ferroelectricity in Li3InF6

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M. Hamadène

Synthesis, Structure and Thermal Behavior of Oxalato-Bridged Rb+ and H3O+ Extended Frameworks with Different Dimensionalities

Poly[diaquadi-μ6-oxalato-μ5-oxalato-chromium(III)rubidium(I)]: a new supramolecular isomer

New oxyfluoride lead-free ferroelectric relaxors in the BaTiO3–BaZrO3–CaLiF3 system

Phase transition in the ternary fluorides Li3Alf6and Li3CrF6

Phase transition, ferroelasticity and ferroelectricity in Li3InF6

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Product

Resources

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Poly[diaquadi-μ₆-oxalato-μ₅-oxalato-chromium(III)rubidium(I)]: a new supramolecular isomer

Phase transition in the ternary fluorides Li₃Alf₆and Li₃CrF₆