New network structures and topologies have been obtained from the reactions of different metal(II) sulfates with three bis(4-pyridyl) spacer ligands, that illustrate the influence of the SO42- anions in the self-assembly of polymeric coordination architectures. The products include [Fe( bpp)(2)(SO4)] [bpp = bis(4-pyridyl) propane] (1), [Cd(bpethy)(SO4)] [bpethy = bis(4-pyridyl) ethyne] (2), [Cu(bpe)(SO4)(H2O)].2H(2)O [bpe = bis(4-pyridyl) ethane] (3), [Co-2(bpe)(3)(SO4) (2)(MeOH)(2)]. xSolv (4) and [Ni6(bpe)(10)(H2O)(16)](SO4)(6). xH(2)O (5). In compounds 1-4 the SO4 22 anions are directly involved in the polymeric frameworks, forming bridges that connect different metal centres. Compound 1 contains one-dimensional ribbons of rings joined by the anions to give a 3D array with the CdSO4(-) type topology. In compound 2 the Cd2+ cations are connected by mu(4)-eta4-bridging anions to give 2D layers of linked octahedra and tetrahedra, that are joined by the bpethy ligands into a 3D array. The structure of compound 3 consists of simple Cu( bpe) chains linked by the anions into 2D sheets. Compound 4 is a complex polymer comprised of highly undulated 2D layers of folded quadrilateral meshes; the layers are deeply interdigitated and joined together by the anions, thus resulting in an unique 3D architecture containining 6- and 4-connected cobalt centres. Compound 5 is the more interesting species in that it is an entangled array of three distinct sets of layers. It contains two different types of 4-connected 2D motifs, i.e. undulated layers of rectangular meshes and square grid layers, in a ratio of 2 : 1. The three sets are parallel to a common axis but show a relative rotation of ca. 120degrees about it, giving a common axis, giving inclined interweaving in an unprecedented 'parallel/parallel/parallel' fashion, to generate a unique 3D architecture.
New architectures from the self-assembly of (MSO4)-S-II salts with bis(4-pyridyl) ligands. The first case of polycatenation involving three distinct sets of 2D polymeric (4,4)-layers parallel to a common axis / L. Carlucci, G. Ciani, D. Proserpio, S. Rizzato. - In: CRYSTENGCOMM. - ISSN 1466-8033. - 5:(2003), pp. 190-199. [10.1039/b304201d]
New architectures from the self-assembly of (MSO4)-S-II salts with bis(4-pyridyl) ligands. The first case of polycatenation involving three distinct sets of 2D polymeric (4,4)-layers parallel to a common axis
L. CarlucciPrimo
;G. CianiSecondo
;D. ProserpioPenultimo
;S. RizzatoUltimo
2003
Abstract
New network structures and topologies have been obtained from the reactions of different metal(II) sulfates with three bis(4-pyridyl) spacer ligands, that illustrate the influence of the SO42- anions in the self-assembly of polymeric coordination architectures. The products include [Fe( bpp)(2)(SO4)] [bpp = bis(4-pyridyl) propane] (1), [Cd(bpethy)(SO4)] [bpethy = bis(4-pyridyl) ethyne] (2), [Cu(bpe)(SO4)(H2O)].2H(2)O [bpe = bis(4-pyridyl) ethane] (3), [Co-2(bpe)(3)(SO4) (2)(MeOH)(2)]. xSolv (4) and [Ni6(bpe)(10)(H2O)(16)](SO4)(6). xH(2)O (5). In compounds 1-4 the SO4 22 anions are directly involved in the polymeric frameworks, forming bridges that connect different metal centres. Compound 1 contains one-dimensional ribbons of rings joined by the anions to give a 3D array with the CdSO4(-) type topology. In compound 2 the Cd2+ cations are connected by mu(4)-eta4-bridging anions to give 2D layers of linked octahedra and tetrahedra, that are joined by the bpethy ligands into a 3D array. The structure of compound 3 consists of simple Cu( bpe) chains linked by the anions into 2D sheets. Compound 4 is a complex polymer comprised of highly undulated 2D layers of folded quadrilateral meshes; the layers are deeply interdigitated and joined together by the anions, thus resulting in an unique 3D architecture containining 6- and 4-connected cobalt centres. Compound 5 is the more interesting species in that it is an entangled array of three distinct sets of layers. It contains two different types of 4-connected 2D motifs, i.e. undulated layers of rectangular meshes and square grid layers, in a ratio of 2 : 1. The three sets are parallel to a common axis but show a relative rotation of ca. 120degrees about it, giving a common axis, giving inclined interweaving in an unprecedented 'parallel/parallel/parallel' fashion, to generate a unique 3D architecture.Pubblicazioni consigliate
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