Coordination Chemistry of Trivalent Lanthanide and Actinide Ions in Dilute and Concentrated Chloride Solutions

Allen, P. G.; Bucher, J. J.; Shuh, David K.; Edelstein, Norman M.; Craig, Ian M.

doi:10.1021/ic9905953

Cited by 322 publications

(361 citation statements)

References 38 publications

Supporting

Mentioning

299

Contrasting

Order By: Relevance

“…The distances between Ln 3 + and the oxygen atoms of the water molecules in the first hydration shell (Figure 1 a) have an almost linear dependence on the atomic number. The differences in r LnÀO values between our data and experimental data [25,30,31] are no larger than 0.05 , and most of them lie within experimental uncertainty. On the other hand, the average coordination numbers (Figure 1 b), obtained as the Experimental data are also reported for comparison: (*), [25] (^) [30] and (~).…”

Section: Magali Duvailsupporting

confidence: 59%

A Dynamic Model to Explain Hydration Behaviour along the Lanthanide Series

2008

View full text Add to dashboard Cite

Section: Magali Duvailsupporting

confidence: 59%

A Dynamic Model to Explain Hydration Behaviour along the Lanthanide Series

2008

View full text Add to dashboard Cite

“…These values are in very good agreement with our former result : 8.5 O at 2.42 Å. In comparison, the Am-O aq distance has been reported to be 10.3 O at 2.48 Å [23] in HCl solution. The decrease of 0.06 Å between the aquo forms of Am 3+ and Cf 3+ is comparable to that of 0.05 Å for the nitrogen coordination sphere of the hexacyanometallates described above, although a direct comparison is not rigorous because of the possible changes in coordination numbers that are not discussed here.…”

Section: Exafs Data At the Americium And Californium Edgessupporting

confidence: 93%

Molecular solids of actinide hexacyanoferrate: Structure and bonding

Dupouy

Dumas

Fillaux

et al. 2010

IOP Conf. Ser.: Mater. Sci. Eng.

View full text Add to dashboard Cite

Abstract. The hexacyanometallate family is well known in transition metal chemistry because the remarkable electronic delocalization along the metal-cyano-metal bond can be tuned in order to design systems that undergo a reversible and controlled change of their physical properties. We have been working for few years on the description of the molecular and electronic structure of materials formed with [Fe(CN) 6 ] n-building blocks and actinide ions (An = Th, U, Np, Pu, Am) and have compared these new materials to those obtained with lanthanide cations at oxidation state +III. In order to evaluate the influence of the actinide coordination polyhedron on the threedimensional molecular structure, both atomic number and formal oxidation state have been varied : oxidation states +III, +IV. EXAFS at both iron K edge and actinide L III edge is the dedicated structural probe to obtain structural information on these systems. Data at both edges have been combined to obtain a three-dimensional model. In addition, qualitative electronic information has been gathered with two spectroscopic tools : UV-Near IR spectrophotometry and low energy XANES data that can probe each atom of the structural unit : Fe, C, N and An. Coupling these spectroscopic tools to theoretical calculations will lead in the future to a better description of bonding in these molecular solids. Of primary interest is the actinide cation ability to form ioniccovalent bonding as 5f orbitals are being filled by modification of oxidation state and/or atomic number.

show abstract

“…9,10 More recent EXAFS studies are not useful to distinguish unambiguously between a CN of 8 or 9 for Ln 3+ ions as concluded by the authors. 11 A second coordination shell is clearly identified with about 16 water molecules. Experimental data for this shell are very scarce with large uncertainties.…”

Section: Manuscript Textmentioning

confidence: 97%