Search results for "uranium"

showing 10 items of 260 documents

A density functional theory study of uranium(VI) nitrate monoamide complexes.

2011

Density functional theory calculations were performed on uranyl complexed with nitrate and monoamide ligands (L) [UO(2)(NO(3))(2)·2L]. The obtained results show that the complex stability is mainly governed by two factors: (i) the maximization of the polarizability of the coordinating ligand and (ii) the minimization of the steric hindrance effects. Furthermore, the electrostatic interaction between ligands and uranium(vi) was found to be a crucial parameter for the complex stability. These results pave the way to the definition of (quantitative) property/structure relationships for the in silico screening of monoamide ligands with improved extraction efficiency of uranium(vi) in nitrate ac…

Steric effectsLigandExtraction (chemistry)Inorganic chemistryGeneral Physics and Astronomychemistry.chemical_elementUraniumUranylUranium complexes DFT nitrate acidic solutionchemistry.chemical_compoundchemistryNitrateComputational chemistryPolarizabilitySettore CHIM/03 - Chimica Generale E InorganicaDensity functional theoryPhysical and Theoretical ChemistryPhysical chemistry chemical physics : PCCP

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CCDC 645088: Experimental Crystal Structure Determination

2007

Related Article: M.Cametti, M.Nissinen, A.D.Cort, L.Mandolini, K.Rissanen|2007|J.Am.Chem.Soc.|129|3641|doi:10.1021/ja068561z

Tetramethylammonium (chloro-(NN'-phenylene-bis(salicylideneaminato))-dioxo-uranium) acetonitrile solvateSpace GroupCrystallographyCrystal SystemCrystal StructureCell ParametersExperimental 3D Coordinates

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IR fingerprints of U(VI) nitrate monoamides complexes: a joint experimental and theoretical study.

2010

Infrared spectra of 0.5 mol·L-1 uranium(VI) nitrate monoamide complexes in toluene have been recorded and compared with infrared spectra calculated by DFT. The investigated monoamides were N,N- dimethylformamide (DMF), N,N-dibutylformamide (DBF), and N,N- dicyclohexylformamide (DcHF). The validity of DFT calculations for describing uranium nitrate monoamide complexes has been confirmed as a fair agreement between experimental and calculated spectra was obtained. Furthermore, a topological analysis of the electron density has been carried out to characterize monoamide-uranium interactions. From this work, it appears that the increase of stability of uranylmonoamide complexes may be directly …

Theoretical studyElectron densityTopological analysis Engineering controlled terms: DimethylformamideInorganic chemistryDFT calculationStrontium compoundchemistry.chemical_elementInfrared spectroscopyLigand010402 general chemistryTopology01 natural sciencesElectrostatic interactionSpectral linechemistry.chemical_compoundDelocalized electronNitratePositive charge[CHIM]Chemical SciencesPhysical and Theoretical ChemistryElectron densitieInfrared spectrumSpectroscopyComputingMilieux_MISCELLANEOUSLigand molecule010405 organic chemistrySulfur compoundUraniumTolueneN N-Dimethylformamide0104 chemical sciencesStable complexe[CHIM.THEO]Chemical Sciences/Theoretical and/or physical chemistrychemistryOrganic solventUraniumPhysical chemistryDegree of polarizationDegree of polarizationMonoamideUranium compounds Engineering main heading: ComplexationTolueneThe journal of physical chemistry. A

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(Supplementary Table 1) 230Th/U results for stalagmite Cuba Grande (CG) from Pinar del Rio

2010

We present 22 U-series ages for a stalagmite from north-western Cuba based on multi-collector inductively coupled plasma mass spectrometry (MC-ICPMS) and thermal ionisation mass spectrometry (TIMS). Our results reveal that the stalagmite continuously grew within the last ~1400a. Low uranium content of the sample and thus, extremely low 230Th concentrations limit the precision and accuracy of 230Th/U-dating by TIMS. Samples measured by MC-ICPMS show a high variability of 232Th content along the growth axis with some sections significantly affected by initial 230Th from a detrital phase. An a-priori bulk earth ratio for (238U/232Th) cannot be used to accurately account for this initial 230Th.…

Thorium 230 Uranium 238 ratioUranium-234 standard deviationIntegrierte Analyse zwischeneiszeitlicher Klimadynamik INTERDYNAMIKUranium 238Thorium 230 Uranium 238 activity ratioUranium-238Thorium-230/Uranium-238 activity ratio standard deviationAge commentUranium 234Integrierte Analyse zwischeneiszeitlicher Klimadynamik (INTERDYNAMIK)commentAge dateddateddated standard deviationAgeAge dated standard deviationThorium-232 standard deviationThorium-230/Uranium-238 ratioMulti collector inductively coupled plasma mass spectrometer MC ICP MSThorium-230/Thorium-232 activity ratioThorium 232Uranium-238 standard deviationSpeleothem sampleThorium 230 Thorium 232 activity ratioUranium-234/Uranium-238 activity ratioUranium 234 Uranium 238 activity ratioThorium-232DISTANCEEarth System ResearchMulti-collector inductively coupled plasma mass spectrometer (MC-ICP-MS)standard deviationThorium-230/Thorium-232 activity ratio standard deviation

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Determination of extremely low (236)U/(238)U isotope ratios in environmental samples by sector-field inductively coupled plasma mass spectrometry usi…

2005

A method by inductively coupled plasma mass spectrometry (ICP-MS) was developed which allows the measurement of (236)U at concentration ranges down to 3 x 10(-14)g g(-1) and extremely low (236)U/(238)U isotope ratios in soil samples of 10(-7). By using the high-efficiency solution introduction system APEX in connection with a sector-field ICP-MS a sensitivity of more than 5,000 counts fg(-1) uranium was achieved. The use of an aerosol desolvating unit reduced the formation rate of uranium hydride ions UH(+)/U(+) down to a level of 10(-6). An abundance sensitivity of 3 x 10(-7) was observed for (236)U/(238)U isotope ratio measurements at mass resolution 4000. The detection limit for (236)U a…

Uranium hydrideRadioactive FalloutRadioisotopesIsotopeRepublic of BelarusHealth Toxicology and MutagenesisRadiochemistrychemistry.chemical_elementGeneral MedicineUraniumPollutionMass SpectrometryUranium-236chemistry.chemical_compoundUranium-238chemistryRadiation MonitoringEnvironmental ChemistrySoil horizonSoil Pollutants RadioactiveUraniumEnvironmental PollutionWaste Management and DisposalInductively coupled plasma mass spectrometryIsotope analysisJournal of environmental radioactivity

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When Does Gold Behave as a Halogen? Predicted Uranium Tetraauride and Other MAu4 Tetrahedral Species, (M = Ti, Zr, Hf, Th)

2003

Quantum chemical calculations suggest that a series of molecules with the general formula MAu4 are stable, where M = U, Th, and a group-4 atom. They correspond to Au in the formal valence state -1 and indicate that gold can act as a ligand similar to the halogen series. Of the MAu4 species studied, UAu4, the first predicted mixed gold uranium compound, has a short M-Au bond distance, 2.71 A, which would locate Au between Br and I from the bond length point of view in the U-tetrahalide series. Energetically, the U-Au bond is weaker than the corresponding U-Br and U-I bonds.

Valence (chemistry)LigandStereochemistrychemistry.chemical_elementGeneral MedicineGeneral ChemistryElectronic structureUraniumBiochemistryCatalysisBond lengthCrystallographyColloid and Surface ChemistrychemistryGold CompoundsMolecular vibrationAtomHalogenddc:540TetrahedronMolecule

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Natural and artificial radioactivity levels in Livingston Island (Antarctic regions).

1994

Radioactive contamination of the sea and land is due, on the one hand, to fallout from atmospheric atomic explosions since 1945, and, on the other, to emissions produced by nuclear and radioactive facilities. Given its geographic position far distant from the aforementioned main sources of radioactive contamination, Antarctica should have the lowest levels that can be measured on the Earth of artificial radionuclides in the various receptor media which are characteristic of the trophic chain. In the case of Antarctica, these are melt-water, sea-water, mosses, algae, and lichens. With the aim of contributing basic information on the radiation levels present in the Antarctic ecosystem, we hav…

Water Pollutants RadioactiveHealth Toxicology and MutagenesisPotassium RadioisotopesMineralogyInduced radioactivityAntarctic RegionsFresh WaterToxicologyTritiumRadioactive contaminationEcosystemSeawaterLichenShetlandRadionuclidegeographygeography.geographical_feature_categoryGeneral MedicinePollutionOceanographyArchipelagoStrontium RadioisotopesEnvironmental scienceUraniumEnvironmental PollutantsEnvironmental PollutionStrontium-90Bulletin of environmental contamination and toxicology

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CCDC 267737: Experimental Crystal Structure Determination

2005

Related Article: M.Cametti, M.Nissinen, A.D.Cort, L.Mandolini, K.Rissanen|2005|J.Am.Chem.Soc.|127|3831|doi:10.1021/ja042807n

bis((mu~3~-NN'-o-Phenylenebis(3-(benzyloxy)salicylideneaminato))-(mu~3~-chloro)-(mu~3~-oxo)-oxo-cesium-uranium) acetonitrile solvateSpace GroupCrystallographyCrystal SystemCrystal StructureCell ParametersExperimental 3D Coordinates

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CCDC 267736: Experimental Crystal Structure Determination

2005

Related Article: M.Cametti, M.Nissinen, A.D.Cort, L.Mandolini, K.Rissanen|2005|J.Am.Chem.Soc.|127|3831|doi:10.1021/ja042807n

bis((mu~3~-NN'-o-Phenylenebis(3-(benzyloxy)salicylideneaminato))-(mu~3~-fluoro)-(mu~3~-oxo)-oxo-cesium-uranium) acetonitrile solvateSpace GroupCrystallographyCrystal SystemCrystal StructureCell ParametersExperimental 3D Coordinates

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CCDC 637170: Experimental Crystal Structure Determination

2007

Related Article: H.Sopo, K.Goljahanpoor, R.Sillanpaa|2007|Polyhedron|26|3397|doi:10.1016/j.poly.2007.03.032

bis(NN-bis(5-t-Butyl-3-methyl-2-oxybenzyl)cyclohexylammonium-OO')-dioxo-uranium(vi)Space GroupCrystallographyCrystal SystemCrystal StructureCell ParametersExperimental 3D Coordinates

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