Initialising ...
Initialising ...
Initialising ...
Initialising ...
Initialising ...
Initialising ...
Initialising ...
Guerinoni, E.*; Giusti, F.*; Dourdain, S.*; Dufr
che, J.-F.*; 元川 竜平; 上田 祐生; 青柳 登; Zemb, T.*; Pellet-Rostaing, S.*
Journal of Molecular Liquids, 403, p.124820_1 - 124820_11, 2024/06
In uranium production, liquid-liquid extraction using the AMEX (AMine EXtraction) process employs tertiary amines solubilized in an aliphatic diluent. Practical constraints as phase stability problems and co-extraction of competitive elements highlight the need for in-depth investigation and optimization. Modifying gradually the alkyl chain structure of tertiary amines, we investigate here the large variation in extraction performance in terms of Gibbs free energy of transfer using the ienaic decomposition taking into account long range interactions. We show hereby that structuration of the solvent phase can change uranium distribution by 2 orders of magnitude, which is incompatible with standard complexation theory of liquid-liquid extraction. We observe that co-extracted water is required to obtain extraction while extraction is quenched and no pair core can be formed when less than four as effective aggregation number. We conclude that the film term in the ienaic decomposition of the Gibbs energy of transfer, is the one that governs extraction performance. It shows that metal transfer is beyond complexation, and that organization of the solvent phase must be considered to quantitatively interpret the distribution coefficients.
Micheau, C.; 上田 祐生; 元川 竜平; 阿久津 和宏*; 山田 悟史*; 山田 雅子*; Moussaoui, S. A.*; Makombe, E.*; Meyer, D.*; Berthon, L.*; et al.
Journal of Molecular Liquids, 401, p.124372_1 - 124372_12, 2024/05
Supramolecular organization of extractant molecules impacts metal ions separation behavior. Probing bulk and interfacial structures of the relevant systems is expected to provide key insights into the metal ion selectivity and kinetic aspects. The supramolecular features of two solvent extraction systems based on malonamide extractants, N,N,N′,N′-tetrahexylmalonamide (THMA) in toluene and N,N′-dimethyl-N,N′-dibutyl-2-tetradecylmalonamide (DBMA) in n-heptane, were studied using small-angle X-ray scattering for the organic bulk phases, as well as interfacial tension and neutron reflectivity measurements for the interfaces. In the bulk solution, THMA forms dimeric/trimeric associates but no aggregates in toluene, while DBMA forms large aggregates in n-heptane. On the other hand, THMA accumulates in a diffuse layer at the interface at high THMA concentration, whereas DBMA forms a compact but thinner layer. After Pd(II) extraction, the thickness of interfacial layers decreases in the case of THMA, and totally vanishes in the case of DBMA. Based on these new structural information, two mechanisms are proposed for Pd(II) and Nd(III) extraction with malonamides. In toluene, THMA associates slightly accumulate in the vicinity of the interface, then coordinate Pd(II) and diffuse into the organic bulk phase. In n-heptane, DBMA aggregates adsorb at the interface then pick up Nd(III) cations in their polar cores and finally diffuse into the bulk.
Micheau, C.; 上田 祐生; 元川 竜平; Bauduin, P.*; Girard, L.*; Diat, O.*
Langmuir, 39(31), p.10965 - 10977, 2023/07
被引用回数:0 パーセンタイル:0(Chemistry, Multidisciplinary)Understanding clay flotation mechanisms has become a major concern because of the increasing level of environmental contamination of soil and ground water by heavy metals and radionuclides. Clays are often used as sorbents for extracting metals in indirect flotation processes but can function simultaneously as defoamers. However, how foam generation and stability depend on the molecular interactions between the clays and surfactant is still controversial. In the present study, an amine polyethoxylated surfactant was used as a bifunctional surfactant that collected clay particles and acted as a foaming agent in the flotation process. The pH conditions strongly affected the surfactant physicochemical properties, allowing the clay extraction efficiency to be tuned. The interfacial recovery factor of the clays almost reached 100 percent under acidic (pH lower than 6) and neutral (pH 6-10) conditions, whereas it was negative under alkaline conditions (pH higher than 10), contrary to expectations. To elucidate the mechanisms involved in the particle flotation process for each of the pH conditions, the bulk and foam phases were analyzed. The effects of electrostatic interactions between the solutes and multiscale structure on the clay extraction behavior were investigated by electrophoretic measurements, dynamic light scattering, small-angle neutron scattering, and image analysis. Based on these results, three flotation processes were found depending on pH range: surfactant foam fractionation at pH higher than 10; clay particle foam flotation at pH 6-10; and particle froth flotation at pH lower than 6.
Micheau, C.; 上田 祐生; 阿久津 和宏*; Bourgeois, D.*; 元川 竜平
Solvent Extraction and Ion Exchange, 41(2), p.221 - 240, 2023/02
被引用回数:1 パーセンタイル:44.81(Chemistry, Multidisciplinary)Malonamide derivatives, which are among the most extensively investigated extractants in solvent extraction of lanthanoids, actinides, and platinum group metal ions, were deuterated by using Pd/C and Rh/C catalysts with a D
O/2-propanol mixture. This method enables to replace the hydrogen atoms by deuterium atoms in the malonamide chemical structure with a controllable deuteration rate. The maximum rate reaches 75 percent approximately, determined by nuclear magnetic resonance (NMR) and electrospray ionization mass spectrometry. In addition, it has been demonstrated that extraction behavior of the malonamide molecules remains unchanged after the deuteration procedure. Deuterated malonamides should be a powerful tool for fundamental researches on solvent extraction systems, in particular, for structural analysis of the organic phases. The large difference in the neutron scattering cross-section between hydrogen and deuterium leads to a large difference in neutron scattering length density of the malonamide derivatives before and after the deuteration reaction. Therefore, using deuterated malonamides in small-angle neutron scattering and neutron reflectivity studies could give access to the nanoscopic structure of the specific solute species in the bulk organic phase and at the liquid-liquid interface, respectively. This deuteration method could become a general one and be extended to a wide variety of extractant molecules. In this way this work contributes to the development of the fundamental researches in solvent extraction systems.
Micheau, C.; 上田 祐生; 元川 竜平; Moussaoui, S.*; Makombe, E.*; Daniel, M.*; Berthon, L.*; Bourgeois, D.*; 阿久津 和宏*
no journal, ,
The DIAMEX process aims to separate minor f-elements using malonamide as extractant molecules such as N,N'-dimethyl-N,N'-dibutyl-tetradecyl-malonamide (DBMA). Recently, Poirot studied the effect of n-heptane and toluene on the selectivity of DBMA between Pd and Nd and have conclude that Pd extraction is driven by coordination whereas Nd extraction is driven by extractant aggregation. More recently, a specific study on tetrahexylmalonamide (THMA) in toluene demonstrated a superior selectivity for Pd compared to DBMA. THMA molecular structure suggests poor aptitude for aggregation compared with DBMA, and has been much less characterized. Supramolecular features of two different solvent extraction systems based on malonamide extractants, THMA in toluene and DBMA in heptane, have been studied using characterization techniques dedicated to bulk organic phase organisation, ie. small angle X-ray scattering, and to interface characterization, ie. neutron reflectivity and interfacial tension.
