Silver nitroprusside: Atypical coordination within the metal nitroprussides series

Coordination environments for the silver atom in silver nitroprusside. [Display omitted] •Coordination environments for the silver atom in silver nitroprusside.•Crystal structure of silver nitroprusside and related properties.•Atypical coordination for silver within the metal nitroprussides series....

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Bibliographic Details
Published in:Inorganica Chimica Acta 2015-03, Vol.428, p.51-56
Main Authors: Rodríguez-Hernández, J., Reguera, L., Lemus-Santana, A.A., Reguera, E.
Format: Article
Language:English
Subjects:
Coordination polymer
Crystal structure
Cyanide bridge
Nitroprusside
Silver compound
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Summary:Coordination environments for the silver atom in silver nitroprusside. [Display omitted] •Coordination environments for the silver atom in silver nitroprusside.•Crystal structure of silver nitroprusside and related properties.•Atypical coordination for silver within the metal nitroprussides series. The nitroprusside complex anion forms an insoluble salt, of formula unit Ag2[Fe(CN)5NO], when it reacts with an aqueous solution of Ag+. Related to the high insolubility of silver halides, silver nitroprusside is a good intermediate to obtain soluble nitroprussides of alkaline, alkaline earth and trivalent transition metals. No other applications for that solid have been reported, probably because its crystal structure and related properties are unknown. This contribution reports the crystal structure for the titled compound from X-ray powder diffraction data and its refinement using the Rietveld method. It crystallizes with a monoclinic unit cell, in the Pc space group, with cell parameters: a=7.4254(3), b=6.4121(2), c=11.8729(2)Å, β=115.16(1)°. The crystal structure has two sites for the silver atom, corresponding to its coordination two and three to the N ends of CN groups. Calculation of the radial distribution function and IR and UV–Vis spectra provided the a priori structural information required to support the selected structural model to be refined. Such information was then used to validate the refined structure. The structure of this compound is atypical within the metal nitroprussides series. The thermal decomposition in air and nitrogen atmosphere of the title compound was studied from thermogravimetry and IR combined techniques. In the solid residues metallic silver and iron oxide (hematite) were identified.
ISSN:0020-1693
1873-3255
DOI:10.1016/j.ica.2014.12.023