Abstract
The interaction of Np(v) with borate was investigated in 0.1-5.0 M NaCl and 0.25-4.5 M MgCl2 solutions with 7.2 ≤ pHm ≤ 10.0 (pHm = -log[H+]) and 0.004 M ≤ [B]tot ≤ 0.16 M. Experiments were performed under an Ar-atmosphere at T = (22 ± 2) °C using a combination of under- and oversaturation solubility experiments, NIR spectroscopy, and extensive solid phase characterization. A bathochromic shift (≈5 nm) in the Np(v) band at λ = 980 nm indicates the formation of weak Np(v)-borate complexes under mildly alkaline pHm-conditions. The identification of an isosbestic point supports the formation of a single Np(v)-borate species in dilute MgCl2 systems, whereas a more complex aqueous speciation (eventually involving the formation of several Np(v)-borate species) is observed in concentrated MgCl2 solutions. The solubility of freshly prepared NpO2OH(am) remained largely unaltered in NaCl and MgCl2 solutions with [B]tot = 0.04 M within the timeframe of this study (t ≤ 300 days). At [B]tot = 0.16 M, a kinetically hindered but very significant drop in the solubility of Np(v) (3-4 log10-units, compared to borate-free systems) was observed in NaCl and dilute MgCl2 solutions with pHm ≤ 9. The drop in the solubility was accompanied by a clear change in the colour of the solid phase (from green to white-greyish). XRD and TEM analyses showed that the amorphous NpO2OH(am) "starting material" transformed into crystalline solid phases with similar XRD patterns in NaCl and MgCl2 systems. XPS, SEM-EDS and EXAFS further indicated that borate and Na/Mg participate stoichiometrically in the formation of such solid phases. Additional undersaturation solubility experiments using the newly formed Na-Np(v)-borate(cr) and Mg-Np(v)-borate(cr) compounds further confirmed the low solubility ([Np(v)]aq ≈ 10-6-10-7 M) of such solid phases in mildly alkaline pHm-conditions. The formation of these solid phases represents a previously unreported retention mechanism for the highly mobile Np(v) under boundary conditions (pHm, [B]tot, ionic strength) of relevance to certain repository concepts for nuclear waste disposal.
Highlights
Neptunium-237 is a relevant radionuclide in the context of nuclear waste disposal because of its inventory in spent nuclear fuel and long half-life (t1/2 = 2.14 × 106 a)
Np(V) solubility data reported in the literature for borate-free systems under analogous pHm and ionic strength conditions are appended to the figure for comparison purposes,[38,39,40] as well as the solubility curves of NpO2OH(am,fresh) calculated with the thermodynamic data selected in the NEA–TDB.[16]
This observation can be explained by the presence of NaCl resulting from incomplete removal of the 5.0 M NaCl matrix solution during sample preparation, as confirmed by X-ray diffraction (XRD)
Summary
Neptunium-237 is a relevant radionuclide in the context of nuclear waste disposal because of its inventory in spent nuclear fuel and long half-life (t1/2 = 2.14 × 106 a). Np(IV) is expected to predominate under the reducing conditions found in anoxic near-surface groundwaters or those foreseen in deep underground repositories for the disposal of nuclear waste. Np(V), which is the predominant oxidation state under oxic conditions, can play a role, e.g. in the early stages of repository closure, in the presence of oxidizing waste forms (i.e. high content of NO3−) or in the direct vicinity of spent fuel as a result of radiolysis effects. The +V oxidation state holds the lowest effective charge (Zeff ≈ +2.3) of all the oxidation states of Np that form in aqueous systems.[1] This results in weaker interactions with strong ligands (hard Lewis bases) such as hydroxide or carbonate.[2]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a callDisclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.
