E. R. Sylwester scite author profile

For the first time, chemical separations of element 106 (Seaborgium, Sg) were performed in aqueous solutions. The isotopes 265 Sg and 266 Sg were produced in the 248 Cm + 22 Ne reaction at a beam energy of 121 MeV. The reaction products were continuously transported by a He(KCl)-jet to the computer-controlled liquid chromatography system ARCA. In 0.1 M HNO3/5 X ΙΟ -4 M HF, Sg was found to be eluted within 10 s from 1.6X8 mm cation-exchange columns (Aminex A6, 17.5±2 μπι) together with the hexavalent Mo-and W-ions, while hexavalent U-ions and tetravalent Zr-, Hf-, and element 104 ions were strongly retained on the column. Element 106 was detected by measuring correlated α-decays of the daughter isotopes 78-s 261 104 and 26-s 257 102. For the isotope 266 Sg, we have evidence for a spontaneous fission branch. It yields a partial spontaneousfission half-life which is in agreement with recent theoretical predictions. The chemical results show that the most stable oxidation state of Sg in aqueous solution is +6, and that like its homologs Mo and W, Sg forms neutral or anionic oxo-or oxohalide-compounds under the present condition. In these first experiments, Sg exhibits properties very characteristic of group 6 elements, and does not show U-like properties.

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On-line Gas Phase Chromatography with Chlorides of Niobium and Hahnium (Element 105)

Türler

Eichler

Jost

et al. 1996

Radiochimica Acta

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On-line gas chromatography / Group 5 elements / Hahnium (element 105) / Chlorides / Relativistic effects SummaryThe retention behavior of volatile chlorides and oxychlorides of short-lived isotopes of group 5 elements Nb and 105 (Ha = hahnium) in quartz columns was studied using on-line isothermal gas chromatography. The 15-s " 8 Nb was produced from a 215 U-fission target at a reactor neutron beam line and 34-s 262 Ha in fusion reactions of ' 8 0 + 249 Bk. The reaction products were continuously and rapidly transported to the chromatography apparatus with a carbon aerosol gas-jet system using He as carrier gas. Volatile chloride molecules were formed in a 900°C reaction oven by adding HCl as reactive gas. Depending on trace amounts of 0 2 in the system, either the pentachlorides or the oxytrichlorides, or a mixture thereof, were formed. The isotopes "»Nb and 262 Ha were unambiguously identified after gas chromatographic separation by measuring the characteristic y-lines of " g Nb and by registering 262 Ha-25 *Lr mother-daughter a-a correlations as well as spontaneous fission decays, respectively. The adsorption enthalpies of the investigated species on quartz surfaces were determined by analyzing the measured retention curves with a Monte Carlo model. Using an empirical correlation, the adsorption enthalpies were converted to sublimation enthalpies. The sublimation enthalpies of 95 ± 16 kJ-mol" 1 and 124± 16 kJ · mol"' determined for NbCl s and NbOCl 3 , respectively, were in good agreement with literature data. In experiments with Ha-chlorides a yield curve with two components was observed. Sublimation enthalpies of ^ 120 kJ · mol -1 and 152 ±18 kJ-mol"' were estimated for HaCl 5 and HaOCl 3 , respectively. The estimated sublimation enthalpies were compared with theoretical predictions from relativistic calculations and with empirical extrapolations of chemical properties. In agreement with empirical extrapolations, a lower volatility was found for HaOCl 3 than for NbOCl·,.

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Chemical Studies of Rutherfordium (Element 104) : Part II. Solvent Extraction into Tributylphosphate from HBr Solutions

Kacher¹,

Gregorich²,

Lee³

et al. 1996

Radiochimica Acta

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Spontaneous fission properties ofRf104262

et al. 1996

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E. R. Sylwester

The structure of uranium (VI) sorption complexes on silica, alumina, and montmorillonite

First Aqueous Chemistry with Seaborgium (Element 106)

On-line Gas Phase Chromatography with Chlorides of Niobium and Hahnium (Element 105)

Chemical Studies of Rutherfordium (Element 104) : Part II. Solvent Extraction into Tributylphosphate from HBr Solutions

Spontaneous fission properties ofRf104262

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