ISSN:
1573-1111
Keywords:
cadium
;
crystal structure
;
Hofmann-diam-type
;
1,4-diaminobutane
;
1,5-diaminopentane
;
1,6-diaminohexane
;
1,8-diaminooctane
;
tetracyanonickelate
;
toluidine
Source:
Springer Online Journal Archives 1860-2000
Topics:
Chemistry and Pharmacology
Notes:
Abstract The crystal structures have been analyzed for the threeo-toluidine clathrates,catena-[catena-μ-(1,4-diaminobutane)cadmium(II) tetra-μ-cyanonickelate(II)]-o-toluidine(2/3),4-o,catena-[catena-μ-(1,5-diaminopentane)cadmium(II) tetra-μ-cyanonickelate(II)]-o-toluidine(3/4),5-o, andcatena-[catena-μ-(1,8-diaminooctane)cadium(II) tetra-μ-cyanonickelate(II)]-o-toluidine(1/1),8-o, for am-toluidine onecatena-[catena-μ-(1,5-diaminopentane)cadmium(II) tetra-μ-cyano-nickelate(II)]-m-toluidine(1/1),5-m, and for ap-toluidine onecatena-[catena-μ-(1,8-diaminooctane)cadium(II) tetra-μ-cyanonickelate(II)]-p-toluidine(1/1),8-p. 4-o crystallizes in the triclinic space groupPī,a/Å = 9.806(3),b/Å = 14.388(3),c/Å = 7.725(2), α/° = 89.71(2), β/° = 89.96(2), γ/° = 98.12(2),V/Å3 = 1078.8(5),Z = 2, 3750 reflections,R = 0.056;5-o: tetragonalP4lmmm, (a = b)/Å = 7.485(7),c/Å = 10.06(3),V/Å3 = 563(2),Z = 1, 573 reflections,R = 0.19;8-o: monoclinicP2/m,a/Å = 11.513(4),b/Å = 7.626(1),c/Å = 7.101(1), β/° = 109.63(3),V/Å3 = 587.2(2),Z = 1, 1682 reflections,R = 0.058;5-m: orthorhombicPbam,a/Å = 12.254(6),b/Å = 20.62(1),c/Å = 7.804(1),V/Å3 = 1972(1),Z = 4, 2240 reflections,R = 0.059; and8-p: triclinic,Pī,a/Å = 11.52(1),b/Å = 7.632(3),c/Å = 7.039(4), α/° = 88.93(4), β/° = 109.71(5), γ/° = 82.81(9),V/Å3 = 576.9(6),Z = 1, 2598 reflections,R = 0.042. Their structures are substantially similar to the already-known structure ofcatena-[catena-μ-(1,6-diaminohexane)cadmium(II) tetra-μ-cyanonickelate(II)]-o-toluidine(1/1): the guest toluidine molecules are accommodated in the cavities formed betweencatena-[cadmium(II) tetra-μ-cyanonickelate(II)] layers bridged by the ambidentate α,ω-diaminoalkane ligands at the cadmium(II) atoms. The carbon chain length of the α,ω-diaminoalkane influences the number of cavities per formula unit and the deformation of the metal complex layers.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1007/BF01153297
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