Facile Transformation of Isolated Fragments to Infinite Chains in Rhenium Chalcocyanide Clusters: Synthesis and Structure of (Pr4N)2M(H2O)5 [Re6X8(CN)6]·H2O and (Pr4N)2M(H2O)4[Re6S8(CN)6] (X=S, Se; M=Mn, Ni)

In this paper we report the synthesis of new compounds containing cluster anions [Re6S8(CN)6]4− and [Re6Se8(CN)6]4−. Interaction of aqueous solutions of anions with transition metal cations in presence of Pr4N+ gives two type of compounds: (Pr4N)2M(H2O)5[Re6X8(CN)6]·H2O, X=S, Se (orthorhombic phase)...

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Published inJournal of solid state chemistry Vol. 153; no. 2; pp. 195 - 204
Main Authors Naumov, N.G., Artemkina, S.B., Virovets, A.V., Fedorov, V.E.
Format Journal Article
LanguageEnglish
Published San Diego, CA Elsevier Inc 01.09.2000
Elsevier
Subjects
crystal structure
cyanide
rhenium
selenium
sulfur
crystal structure
sulfur
cyanide
rhenium
selenium
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Summary:In this paper we report the synthesis of new compounds containing cluster anions [Re6S8(CN)6]4− and [Re6Se8(CN)6]4−. Interaction of aqueous solutions of anions with transition metal cations in presence of Pr4N+ gives two type of compounds: (Pr4N)2M(H2O)5[Re6X8(CN)6]·H2O, X=S, Se (orthorhombic phase) and (Pr4N)2M(H2O)4[Re6S8(CN)6] (tetragonal phase), X=S, Se, M=Mn, Ni. The structures of (Pr4N)2Mn(H2O)5 [Re6Se8(CN)6]·H2O (space group: P212121, a=18.286(2) Å, b=18.345(2) Å, c=16.568(2) Å, V=5558(1) Å3, Z=4, R1=0.0387, wR2=0.0624), (Pr4N)2Mn(H2O)4[Re6S8(CN)6] (space group: I4/m, a=13.255(2) Å, c=14.432(3) Å, V=2535.6(8) Å3, R1=0.0369, wR2=0.0960) and (Pr4N)2Ni(H2O)4[Re6S8(CN)6] (space group: I4/m, a=13.247(4) Å, c=14.246(6) Å, V=2500(2) Å3, R1=0.0414, wR2=0.1004) were determined by X-ray single crystal analysis. The structure of (Pr4N)2Mn(H2O)5[Re6Se8(CN)6]·H2O contains isolated fragments {Mn(H2O)5[Re6Se8(CN)6]}2−. The structures of (Pr4N)2M(H2O)4[Re6S8(CN)6] (M=Mn, Ni) contain {-Mn(H2O)4-[Re6S8(CN)6]-}2−∞ infinite chains. When heated the (Pr4N)2M(H2O)5[Re6S8(CN)6]·H2O compounds transform into (Pr4N)2M(H2O)4[Re6S8(CN)6], the reaction conditions depending on the nature of the metal. The formation and conversion of the compounds are discussed in terms of substitution of water molecules in coordination sphere of transition metal cations. It is shown that the orthorhombic structure can be considered as a superstructure in respect to the tetragonal one.
ISSN:0022-4596
1095-726X
DOI:10.1006/jssc.2000.8736