2015
DOI: 10.1021/acs.inorgchem.5b01701
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Is the Hexacyanoferrate(II) Anion Stable in Aqueous Solution? A Combined Theoretical and Experimental Study

Abstract: A combined theoretical and experimental study has been performed to elucidate the structural and dynamical properties of aqueous hexacyanoferrate(II) isolated and in presence of potassium ions. It is shown that in absence of counter ions, the highly negatively charged hexacyanoferrate(II) complex is not stable in aqueous solution.However, if the high negative charge is compensated by potassium counter ions, a stable complex is observed, which is proven by theoretical simulations as well as by EXAFS experiments… Show more

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Cited by 18 publications
(27 citation statements)
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“…The differences in line width are attributed to the stronger interactions of the ferrous species with the solvent shell, as discussed above (Figure 1) and in previous studies. 2,3,7,14 The stronger interaction with the water molecules for the Fe(II) complex in comparison with the Fe(III) species results in a larger structural heterogeneity for the former in solution. For example, in Figure 1c, we note that the distribution of g(r) for the CN bond lengths is greater in the ferrous complex than the ferric one, which is a result of stronger hydrogen bonding interactions of the cyanide ligands with the water molecules.…”
Section: Structure Of the Hexacyanoferrate Complexes Inmentioning
confidence: 99%
“…The differences in line width are attributed to the stronger interactions of the ferrous species with the solvent shell, as discussed above (Figure 1) and in previous studies. 2,3,7,14 The stronger interaction with the water molecules for the Fe(II) complex in comparison with the Fe(III) species results in a larger structural heterogeneity for the former in solution. For example, in Figure 1c, we note that the distribution of g(r) for the CN bond lengths is greater in the ferrous complex than the ferric one, which is a result of stronger hydrogen bonding interactions of the cyanide ligands with the water molecules.…”
Section: Structure Of the Hexacyanoferrate Complexes Inmentioning
confidence: 99%
“…61,62 Even though it can decompose under high exposure to UV light, if in high concentration, the timescale of decomposition is far longer than the electrodeposition of PB, especially in the mmol L -1 range used in these experiments. 63 Yet, its decomposition does not generate free iron species, which are responsible for PB formation in the case of K 3 [Fe(CN) 6 ].…”
Section: Resultsmentioning
confidence: 99%
“…During the simulation, the Fe–C force constants were increased in order to avoid cyano ligand loss, which does not occur experimentally for nanodrops of this size, but has been observed previously in QM/MM simulations. 48 The ion was not confined to the center of the aqueous cluster during the dynamics trajectories. An initial geometry relaxation was performed followed by equilibration with a 1 ns stochastic dynamics trajectory at 133 K using the OPLS 2005 force field with 1.0 fs time steps.…”
Section: Experimental and Computational Methodsmentioning
confidence: 98%
“…4244 Experiments on this ion in water have revealed a distinct inner solvation shell around ferrocyanide, but no information has been reported about how this anion influences the structure of water beyond the first solvation shell. 4548 The direct measurement of extended ion–water interactions by an individual tetraanionic species is not feasible in the condensed phase due to the low concentrations necessary for hydration shells to exist unperturbed by counterions. However, the stability afforded by aqueous gas phase clusters and the sensitivity of IRPD spectroscopy to the orientation of surface water molecules provide a well-suited method for studying this high charge density tetraanion.…”
Section: Introductionmentioning
confidence: 99%