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A structural study of saturated aqueous solutions of some alkali halides by X-ray diffraction (1992)

Ohtaki, Hitoshi ; Fukushima, Nobuhiro

Springer

Journal of solution chemistry 21 (1992), S. 23-38

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ISSN: 1572-8927

Keywords: Nucleation of crystal ; X-ray diffraction ; alkali halide ; saturated solution ; structure of complex ; embryo ; cluster ; ion pair

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract The structure of nearly saturated or supersaturated aqueous solutions of NaCI [6.18 mol (kg H2O)−1], KCI [4.56 mol (kg H2O)−1], KF [16.15 mol (kg H2O)−1] and CsF [31.96 mol (kg H2O)−1] has been investigated by means of solution X-ray diffraction at 25°C. In the NaCI and KCI solutions about 30% and 60%, respectively, of the ions form ion pairs and the Na+−Cl− and K+−Cl− distances have been determined to be 282 and 315 pm, respectively. The average hydration numbers of Na+ and Cl− ions are 4.6 and 5.3, respectively, in the NaCI solution and those of K+ and Cl− ions in the KCI solution are both 5.8. In the KF solution, clusters containing some cations and anions, besides 1:1 (K+−F−) ion pairs, are formed. The K+−F− interatomic distance has been determined to be 269 pm, and nonbonding K+...K+ and F−...F− distances in the clusters are 388 and 432 pm, respectively, and the average coordination numbers n KF , n KK and n FF have been estimated to be 2.3, 1.9, and 1.6, respectively. In the highly supersaturated CsF solution an appreciable amount of clusters containing several caesium and fluoride ions are formed. The Cs+−F− distance in the cluster has been determined to be 312 pm, while the nonbonding Cs+...Cs+ and F−...F− distances are estimated to be 442 and 548 pm, respectively, the distances being about $$\sqrt 2 $$ and $$\sqrt 3 $$ times the Cs+−F− distance, respectively. The coordination numbers n CsF , n CsCs , and n FF in the first coordination sphere of each ion are 3.3, 2.3 and 5.3, respectively, and the result shows the formation of clusters of higher order than 1:1 and 2:2 ion pairs. These ion pairs and clusters may be regarded as embryos for the formation of nuclei of crystals and the results obtained in the present diffraction study support observations for the nucleation of the alkali halide crystals studied by molecular dynamics simulations previously examined.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00648978

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Structural Studies on Saturated Aqueous Solutions of Manganese(II), Cobalt(II), and Nickel(II) Chlorides by X-ray Diffraction (1999)

Waizumi, Kenji ; Kouda, Takahisa ; Tanio, Atsuhiro ; [et al.]

Springer

Journal of solution chemistry 28 (1999), S. 83-100

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ISSN: 1572-8927

Keywords: Manganese chloride ; cobalt chloride ; nickel chloride ; X-ray diffraction ; saturated solution ; structure of complex ; growth unit

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract As a part of our studies on crystallization processes of electrolytes, the structure of aqueous solutions of MCl2 (M = Mn, Co, Ni) equilibrated with hydrate crystals, MCl2 · mH2O (m = 6, 4, 2), was investigated by means of X-ray diffraction at 25, 40, 55, and 70°C. The complexes formed in MnCl2 solutions, were found to be mixed–ligand chloroaqua octahedral complexes of M2+ ions with the Mn—O and Mn—Cl distances of about 220 and 251 pm, respectively. The average number of Mn—Cl and Mn—O interactions increased from 1.2 to 1.9 and decreased from 4.8 to 4.1, respectively, with changing MnCl2 solutions from Mn25 (MnCl2 solution at 25°C) to Mn70 (MnCl2 solution at 70°C). In the octahedral species of Co2+, the Co—O and Co—Cl distances were found to be about 211 and 240 pm, respectively. With an increase in the saturated concentration by changing temperature from 25 to 70°C, the average coordination number of the Co—Cl contact per Co2+ increased from 0.5 to 1.2, and the average number of Co—O interactions decreased from 5.5 to 4.8. The structural analysis was carried out by taking into consideration the existence of the tetrahedral species in the solutions saturated at 40, 55, and 70°C, on the assumption of the existence of [CoCl4]2−. The Co—Cl distance was found to be 228 pm, while the number of Co—Cl interactions in the [CoCl4] complex was calculated to be 3.7 by the least-squares calculations. The Ni—O and Ni—Cl distances were estimated to be about 206 and 237 pm, respectively. The frequency factor n of the Ni—O and Ni—Cl interactions decreased monotonously from 5.6 to 5.0 and increased from 0.4 to 1.0, respectively, with increasing NiCl2 concentration. The n values of the Co—Cl and Ni—Cl interactions of the octahedral complexes increased sharply with concentration at higher concentrations. Comparing structures of the complexes in the saturated solutions and the hydrate crystals of these metal ions, we discussed a role of the complexing species on crystallization of the hydrates.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1021741911462

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