Supramolecular Interactions between Inorganic and Organic Blocks of Pentacyanoferrate/Poly(4-vinylpyridine) Hybrid Metallopolymer

Abstract: The combination of organic and inorganic molecular building blocks gives rise to hybrid supramolecular materials showing properties from both chemical domains. This work presents the synthesis of metallopolymers made from poly(4-vinylpyridine) (P4VP) and pentacyanoferrate(II) at various polymer repeating unit/[Fe(CN)(5)](3-) ratios (py/Fe) and focuses on the influence of each block on the properties of the other. The solvatochromic shift of the [Fe(CN)(5)](3-) moiety was investigated as a function of the py/Fe… Show more

“…The ν(CN ring ) band at 1595 cm −1 of pure P4VP shifted to 1600 cm −1 for [Fe(CN) 5 ] 3− -co-P4VP. 38,40,41 The same trend was also noted for the ν(CC ring ) band at 1413 cm −1 , which shifted to 1417 cm −1 . 38,40−42 The slight shift of the cyanide stretch to higher frequencies compared to the precursor (2031 cm −1 for [Fe-NH 3 ]) indicates successful substitution of the amino ligands with the P4VP group without effecting the oxidation state of the Fe centers.…”

“…38,40−42 The slight shift of the cyanide stretch to higher frequencies compared to the precursor (2031 cm −1 for [Fe-NH 3 ]) indicates successful substitution of the amino ligands with the P4VP group without effecting the oxidation state of the Fe centers. 38 Similarly, the shift to lower wavelengths observed in the absorbance band in UV−vis spectra also supports the formation of a metal polymer composite ( Figure S2). 37,38 Moreover, the high solubility of [Fe(CN) 5 -PVP] in water in contrast to P4VP suggests the formation of a charged polymeric species.…”

A Novel Synthetic Route for the Preparation of an Amorphous Co/Fe Prussian Blue Coordination Compound with High Electrocatalytic Water Oxidation Activity

“…The ν(CN ring ) band at 1595 cm −1 of pure P4VP shifted to 1600 cm −1 for [Fe(CN) 5 ] 3− -co-P4VP. 38,40,41 The same trend was also noted for the ν(CC ring ) band at 1413 cm −1 , which shifted to 1417 cm −1 . 38,40−42 The slight shift of the cyanide stretch to higher frequencies compared to the precursor (2031 cm −1 for [Fe-NH 3 ]) indicates successful substitution of the amino ligands with the P4VP group without effecting the oxidation state of the Fe centers.…”

“…38,40−42 The slight shift of the cyanide stretch to higher frequencies compared to the precursor (2031 cm −1 for [Fe-NH 3 ]) indicates successful substitution of the amino ligands with the P4VP group without effecting the oxidation state of the Fe centers. 38 Similarly, the shift to lower wavelengths observed in the absorbance band in UV−vis spectra also supports the formation of a metal polymer composite ( Figure S2). 37,38 Moreover, the high solubility of [Fe(CN) 5 -PVP] in water in contrast to P4VP suggests the formation of a charged polymeric species.…”

A Novel Synthetic Route for the Preparation of an Amorphous Co/Fe Prussian Blue Coordination Compound with High Electrocatalytic Water Oxidation Activity

“…The reaction with Co 2+ leads to a shi to higher frequency due to the formation of the Fe-CN-Co coordination mode. 25,34 XPS studies indicate an observable change in the binding energy of the Ru 3d 5/ 2 signal for [Ru-P4VP] compared with that of Ru(bpy) 2 Cl 2 as a result of the replacement of chloride groups with pyridyl ones. Ru 3d 5/2 signals are considered for comparison due to overlap of the Ru 3d 3/2 and C 1s signals (Fig.…”

Visible light-driven water oxidation with a ruthenium sensitizer and a cobalt-based catalyst connected with a polymeric platform

“…Another question is how isn is coordinated in complex, through the nitrogen or the carboxylic group. To solve this question, vibrational spectroscopy (FTIR) was used because the vibrational modes of the pyridine ring are sensitive to the coordination of Fe(CN) 5 3– group 24. Assignments were performed based on computational tools and are presented in detail in the Supporting Information.…”

Prussian Blue Films Produced by Pentacyanidoferrate(II) and Their Application as Active Electrochemical Layers