Tributylphosphate Extraction Behavior of Bismuthate-Oxidized Americium

Mincher, Bruce J.; Martin, Leigh R.; Schmitt, Nicholas C.

doi:10.1021/ic800667h

Cited by 98 publications

(116 citation statements)

References 27 publications

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“…In any of these cases, the challenge is oxidizing the Am and maintaining the higher oxidation state during the separation step. It was first demonstrated in the 1970s, and more recently confirmed, that Am(III) can be oxidized to Am(VI) by sodium bismuthate (NaBiO 3 ) in a nitric acid solution [3][4][5][6], which, unlike sodium persulfate, does not lose its oxidative efficiency at greater than 0.5 mol/L concentration of HNO 3 [7][8][9]. One of the disadvantages of NaBiO 3 as an oxidant for Am(III) is a slow dissolution rate and its limited solubility in HNO 3 .…”

Section: Introductionmentioning

confidence: 99%

Americium(III) oxidation by copper(III) periodate in nitric acid solution as compared with the action of Bi(V) compounds of sodium, lithium, and potassium

Sinkov¹,

Lumetta²

2015

Radiochimica Acta

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The oxidative action of a Cu(III) periodate compound toward Am(III) in nitric acid was studied. The extent of oxidation of Am(III) to Am(VI) was investigated using a constant initial Cu(III)-to-Am(III) molar ratio of 10 : 1 and varying nitric acid concentrations from 0.25 to 3.5 mol/L. From 0.25 to 3 mol/L HNO 3 , more than 98% of the Am(III) was oxidized to Am(VI); however, at 3.5 mol/L HNO 3 , the conversion to Am(VI) was only 80%. Increasing the Cu(III)-to-Am(III) molar ratio to 20 : 1 in 3.5 mol/L HNO 3 resulted in 98% conversion to Am(VI). For comparison, oxidation of Am(III) with NaBiO 3 was studied at 3.5 mol/L HNO 3 and the same stoichiometric excess of Bi(V) oxidant over Am(III) (stoichiometric ratio of 3.33 : 1). With NaBiO 3 , the extent of Am(III) conversion to Am(VI) was only 19%, while with the Cu(III) compound this value was found to be about 4 times higher under otherwise identical conditions. Similar results were obtained with other Bi(V) salts. These results show that the Cu(III) periodate compound is a superior oxidant to NaBiO 3 , yielding rapid conversion to Am(VI) in a homogeneous acidic solution, and is, therefore, an excellent candidate for further development of Am separation systems.

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Section: Introductionmentioning

confidence: 99%

Americium(III) oxidation by copper(III) periodate in nitric acid solution as compared with the action of Bi(V) compounds of sodium, lithium, and potassium

Sinkov¹,

Lumetta²

2015

Radiochimica Acta

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“…We were unable to reproduce a reported literature preparation [2], but the following process did give stable Am(V). First, 230 mg of Na 2 S 2 O 8 was added to a 1 mL of roughly 0.1 M HClO 4 containing 2.23 × 10 −4 mols of 243 Am in a narrow window 1 cm screw cap cuvette.…”

Section: Americium Oxidationmentioning

confidence: 82%

“…For the interested reader a recent review article has just been published on the higher oxidation states of Am [15]. Only a handful of reports have been published discussing the synthesis and stabilization of oxidized Am [2,[16][17][18][19][20][21][22][23][24][25][26][27][28]. In acidic media the pentavalent americium is highly unstable and readily reduces to Am(III).…”

Section: Americium Oxidationmentioning

confidence: 99%

“…Cs + and Sr 2+ need to be removed to reduce the heat load as they are highly radioactive with ∼ 30-year half-lives. Americium and curium need to be separated from the lanthanides generated during fission and further separate americium from curium with an aim to implement transmutation into fuel cycle technologies [2]. It is highly desirable to implement transmutation process as this will greatly reduce the radiotoxicity of the high-level-waste [3].…”

Section: Introductionmentioning

confidence: 99%

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Separation of oxidized americium from lanthanides by use of pillared metal(IV) phosphate-phosphonate hybrid materials

Burns¹,

Borkowski²,

Clearfield³

et al. 2012

Radiochimica Acta

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Closing the nuclear fuel cycle in the US poses many challenges, one of which is found in the waste streams, which contain both trivalent lanthanides and actinides. The separation of americium from the raffinate will dramatically reduce the long-term radiotoxicity of the waste. The sorption of americium in both the tri-and pentavalent oxidation states was observed for four M(IV) phosphate-phosphonate ion exchange materials in nitric acid at pH 2. High selectivity was observed for reduced Am(III) with K d values ca. 6 × 10 5 mL/g, while the K d values for Am(V) were much lower. A new method of synthesizing and stabilizing AmO 2 + to yield a lifetime of at least 24 h in acidic media using a combination of sodium persulfate and calcium hypochlorite will be described.

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“…Americium(VI) can be separated from curium(III) by Am(VI) extraction with bis(2,6-dimethyl-4-heptyl)phosphoric acid (HD(DIBM)P) [27,28], tributyl phosphate (TBP) [29,30], or dibutyl butyl phosphonate (DBBT) [31]. On the other hand, Am(V) is not extracted under the conditions when Cm(III) is, for example by 2-thenoyltrifluoroacetone (TTA) [32] or its synergistic mixture with tri-noctylphosphine oxide (TOPO) [33].…”

Section: Introductionmentioning

confidence: 99%

Separation of curium from americium using composite sorbents and complexing agent solutions

Šťastná

John

Šebesta

et al. 2014

J Radioanal Nucl Chem

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The EXAm and the AmSel liquid-liquid extraction processes have been used as bases for the development of chromatographic systems for separation of curium(III) from americium(III). The liquid organic phases were replaced by composite sorbents with PAN binding matrix and complexing agent in nitric acid solutions were employed as aqueous phases. The influence of complexing agent and nitric acid concentrations on weight distribution coefficients and separation factor and the kinetics of the actinide uptake were determined in batch experiments with trace amounts of 241 Am and 244 Cm. The efficiency of Cm(III) separation from Am(III) was evaluated in column experiment.

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Tributylphosphate Extraction Behavior of Bismuthate-Oxidized Americium

Cited by 98 publications

References 27 publications

Americium(III) oxidation by copper(III) periodate in nitric acid solution as compared with the action of Bi(V) compounds of sodium, lithium, and potassium

Americium(III) oxidation by copper(III) periodate in nitric acid solution as compared with the action of Bi(V) compounds of sodium, lithium, and potassium

Separation of oxidized americium from lanthanides by use of pillared metal(IV) phosphate-phosphonate hybrid materials

Separation of curium from americium using composite sorbents and complexing agent solutions

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