Stephanie E. Field scite author profile

Stephanie E. Field

4Publications

98Citation Statements Received

92Citation Statements Given

How they've been cited

169

How they cite others

Affiliations

Wright State University, Los Alamos National Laboratory, Pacific Northwest National Laboratory

Publications

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Kinetic Study of the Oxidative Dissolution of UO₂ in Aqueous Carbonate Media

Peper

Brodnax

Field

et al. 2004

Ind. Eng. Chem. Res.

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The oxidative dissolution of uranium(IV) dioxide powder at room temperature in aqueous carbonate media has been investigated. Kinetic studies evaluating the efficacy of various oxidants, including K2S2O8, NaOCl, and H2O2, for dissolving UO2 in alkaline solution have been performed, with H2O2 exhibiting the most rapid initial dissolution at 0.1 M oxidant concentrations. This result is due in part to the ability of peroxide to act as both an oxidant and a ligand under alkaline conditions. A spectrophotometric titration was used to confirm peroxide coordination to the U(VI) metal center. The disappearance of characteristic absorbance maxima associated with UO2(CO3)3 4- (e.g., 448.5 nm) and a subsequent change in solution coloration upon titration with hydrogen peroxide indicated a change in speciation. Optimization of the hydrogen peroxide concentration indicated that the initial rate of uranium oxidation increased with increasing peroxide concentration, with a maximum reaction rate estimated at about 0.9 M peroxide. In addition, the effects of both the carbonate countercation and the carbonate concentration were also studied. It was determined that for 40 mg UO2 0.5 M Na2CO3 was the most propitious choice, exhibiting both a high initial dissolution rate and the highest UO2 dissolution capacity among the systems studied.

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First Identification and Thermodynamic Characterization of the Ternary U(VI) Species, UO₂(O₂)(CO₃)₂⁴⁻, in UO₂−H₂O₂−K₂CO₃ Solutions

et al. 2008

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In alkaline carbonate solutions, hydrogen peroxide can selectively replace one of the carbonate ligands in UO2(CO3)3(4-) to form the ternary mixed U(VI) peroxo-carbonato species UO2(O2)(CO3)2(4-). Orange rectangular plates of K4[UO2(CO3)2(O2)].H2O were isolated and characterized by single crystal X-ray diffraction studies. Crystallographic data: monoclinic, space group P2(1)/ n, a = 6.9670(14) A, b = 9.2158(10) A, c = 18.052(4) A, Z = 4. Spectrophotometric titrations with H 2O 2 were performed in 0.5 M K 2CO 3, with UO2(O2)(CO3)2(4-) concentrations ranging from 0.1 to 0.55 mM. The molar absorptivities (M(-1) cm(-1)) for UO2(CO3)3(4-) and UO2(O2)(CO3)2(4-) were determined to be 23.3 +/- 0.3 at 448.5 nm and 1022.7 +/- 19.0 at 347.5 nm, respectively. Stoichiometric analyses coupled with spectroscopic comparisons between solution and solid state indicate that the stable solution species is UO2(O2)(CO3)2(4-), which has an apparent formation constant of log K' = 4.70 +/- 0.02 relative to the tris-carbonato complex.

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The Influence of Hamstrings Fatigue on Knee Biomechanics During a Drop Vertical Jump

Field

Pringle

Froehle

2017

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ChemInform Abstract: First Identification and Thermodynamic Characterization of the Ternary U(VI) Species, UO₂(O₂)(CO₃)₂^4‐, in UO₂—H₂O₂—K₂CO₃ Solutions.

et al. 2008

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Solutions. -Single crystals of K4[UO2(O2)(CO3)2]·H2O are prepared by addition of H2O2 to a K2CO3 solution containing U VI . The new compound crystallizes in the monoclinic space group P21/n with Z = 4. Spectroscopic characterization and thermodynamic stabilities of the mixed--ligand complex [UO2(O2)(CO3)2] 4in both solid state and solution are reported. -(GOFF, G. S.; BRODNAX, L. F.; CISNEROS, M. R.; PEPER, S. M.; FIELD, S. E.; SCOTT, B. L.; RUNDE*, W. H.; Inorg.

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