TY - JOUR
T1 - Application of a novel gas phase synthesis approach to carbonyl complexes of accelerator-produced 5d transition metals
AU - Götz, Michael
AU - Yakushev, Alexander
AU - Götz, Stefan
AU - Di Nitto, Antonio
AU - Düllmann, Christoph E.
AU - Asai, Masato
AU - Kindler, Birgit
AU - Krier, Jörg
AU - Lommel, Bettina
AU - Nagame, Yuichiro
AU - Sato, Tetsuya K.
AU - Suzuki, Hayato
AU - Tomitsuka, Tomohiro
AU - Tokoi, Katsuyuki
AU - Toyoshima, Atsushi
AU - Tsukada, Kazuaki
N1 - Funding Information:
Research funding: We gratefully acknowledge financial support by the Reimei Research Program (Japan Atomic Energy Agency) and the German Federal Ministry for Education and Research under contract 05P15UMFNA.
Funding Information:
This work has been partly supported by the Program on the Scientific Cooperation between GSI and JAEA in Research and Development in the Field of Ion Beam Application. We thank the operating staff of the JAEA-Tokai Tandem Accelerator for providing stable beams and the mechanical workshops at the GSI Helmholtzzentrum für Schwerionenforschung for their support.
Publisher Copyright:
© 2021 Walter de Gruyter GmbH, Berlin/Boston.
PY - 2022/2/1
Y1 - 2022/2/1
N2 - In 2014 the first synthesis of a transactinide carbonyl complex - seaborgium hexacarbonyl - was reported. This was achieved in gas-phase chemical experiments in a beam-free environment behind the recoil separator GARIS. Extending this work to heavier elements requires more efficient techniques to synthesize carbonyl complexes as production rates of transactinide elements drop with increasing atomic number. A novel approach was thus conceived, which retains the benefit of a beam-free environment but avoids the physical preseparation step. The latter reduces the yields for products of asymmetric reactions such as those used for the synthesis of suitable isotopes of Sg, Bh, Hs and Mt. For this a series of experiments with accelerator-produced radioisotopes of the lighter homologues W, Re and Os was carried out at the tandem accelerator of JAEA Tokai, Japan. A newly developed double-chamber system, which allows for a decoupled recoil ion thermalization and chemical complex formation, was used, which avoids the low-efficiency physical preseparation step. Here, we demonstrate the feasibility of this newly developed method using accelerator-produced short-lived radioisotopes of the 5d homologues of the early transactinides.
AB - In 2014 the first synthesis of a transactinide carbonyl complex - seaborgium hexacarbonyl - was reported. This was achieved in gas-phase chemical experiments in a beam-free environment behind the recoil separator GARIS. Extending this work to heavier elements requires more efficient techniques to synthesize carbonyl complexes as production rates of transactinide elements drop with increasing atomic number. A novel approach was thus conceived, which retains the benefit of a beam-free environment but avoids the physical preseparation step. The latter reduces the yields for products of asymmetric reactions such as those used for the synthesis of suitable isotopes of Sg, Bh, Hs and Mt. For this a series of experiments with accelerator-produced radioisotopes of the lighter homologues W, Re and Os was carried out at the tandem accelerator of JAEA Tokai, Japan. A newly developed double-chamber system, which allows for a decoupled recoil ion thermalization and chemical complex formation, was used, which avoids the low-efficiency physical preseparation step. Here, we demonstrate the feasibility of this newly developed method using accelerator-produced short-lived radioisotopes of the 5d homologues of the early transactinides.
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U2 - 10.1515/ract-2021-1028
DO - 10.1515/ract-2021-1028
M3 - Article
AN - SCOPUS:85121996501
VL - 110
SP - 75
EP - 86
JO - Radiochimica Acta
JF - Radiochimica Acta
SN - 0033-8230
IS - 2
ER -