Search results for "Copernicium"

showing 3 items of 3 documents

TASCAを用いたCn, Nh, Fl化学実験のためのHg, Tl, PbのSiO2及びAu表面に対するオンライン化学吸着研究

2018

Online gas-solid adsorption studies with single atom quantities of Hg, Tl, and Pb on SiO$_{2}$ and Au surfaces were carried out using short-lived radioisotopes with half-lives in the range of 4-49 s. This is a model study to measure adsorption enthalpies of superheavy elements Cn, Nh, and Fl. The short-lived isotopes were produced and separated by the gas-filled recoil separator TASCA at GSI. The products were stopped in He gas, and flushed into gas chromatography columns made of Si detectors whose surfaces were covered by SiO$_{2}$ or Au. The short-lived Tl and Pb were successfully measured by the Si detectors with the SiO$_{2}$ surface at room temperature. On the other hand, the Hg did no…

Analytical chemistrychemistry.chemical_elementElectronic structure010402 general chemistry01 natural sciencesadsorption studiethermochromatographyHomologs of superheavy elementRELATIVISTIC PERIODIC DFTMetalGSIAdsorptionCHEMISTRY0103 physical sciencesisothermal chromatographyPhysical and Theoretical ChemistrySUPERHEAVY ELEMENTS010306 general physicsCoperniciumChemistryQUARTZ SURFACE0104 chemical sciencesgas phase chromatography of single atomHEAVIEST ELEMENTSFleroviumELECTRONIC-STRUCTUREvisual_artYield (chemistry)METALvisual_art.visual_art_mediumGas chromatographyRelativistic quantum chemistryphysical preseparationSYSTEMRadiochimica acta
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Superheavy element flerovium (element 114) is a volatile metal.

2014

The electron shell structure of superheavy elements, i.e., elements with atomic number Z ≥ 104, is influenced by strong relativistic effects caused by the high Z. Early atomic calculations on element 112 (copernicium, Cn) and element 114 (flerovium, Fl) having closed and quasi-closed electron shell configurations of 6d(10)7s(2) and 6d(10)7s(2)7p1/2(2), respectively, predicted them to be noble-gas-like due to very strong relativistic effects on the 7s and 7p1/2 valence orbitals. Recent fully relativistic calculations studying Cn and Fl in different environments suggest them to be less reactive compared to their lighter homologues in the groups, but still exhibiting a metallic character. Expe…

Physicsgas chemistryValence (chemistry)ta114Electron shellchemistry.chemical_elementelement 114Inorganic ChemistryFleroviumsuperheavy elementsPhysisorptionchemistryAtomic orbitalChemical physicsSubatomic PhysicsAtomic numberPhysical and Theoretical ChemistryAtomic physicsRelativistic quantum chemistryCoperniciumInorganic chemistry
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Extraction Chromatographic Behavior of Rf, Zr, and Hf in HCl Solution with Styrenedivinylbenzene Copolymer Resin Modified by TOPO (trioctylphosphine …

2010

It is of great interest to study chemical properties of the transactinide elements with atomic numbers (Z) ≥ 104. One of the most important subjects is to establish the position of the elements at the extreme end of the periodic table. To this end we perform studies of chemical properties of these transactinides and compare them with those of their lighter homologues and with the ones expected from extrapolations in the periodic table. So far, chromatographic studies of the transactinides have provided experimental proof of placing rutherfordium (Rf, Z = 104) through hassium (Hs, Z = 108) into groups 4 to 8, respectively. 1-10 Quite recently, copernicium (Cn, Z = 112) has been shown to be a…

chemistry.chemical_compoundChromatographychemistryGroup (periodic table)RutherfordiumTransactinide elementchemistry.chemical_elementAtomic numberRelativistic quantum chemistryTrioctylphosphine oxideCoperniciumHassiumJournal of Nuclear and Radiochemical Sciences
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