Complex chemistry with complex compounds

Eichler, Robert; Asai, Mitsuteru; Brand, H.; Chiera, Nadine M.; Nitto, A. Di; Dressler, R.; Düllmann, Ch. E.; Even, J.; Fangli, F.; Goetz, Martin; Haba, Hiromitsu; Hartmann, W.; Jäger, E.; Kaji, D.; Kanaya, J.; Kaneya, Y.; Khuyagbaatar, J.; Kindler, B.; Komori, Yukiko; Kraus, Benjamin; Kratz, J. V.; Krier, J.; Kudou, Y.; Kurz, N.; Miyashita, Sunao; Morimoto, K.; Morita, Kosuke; Murakami, Masashi; Nagame, Y.; Ooe, Kazuhiro; Piguet, D.; Sato, N.; Sato, Tetsuya K.; Steiner, J.; Steinegger, P.; Sumita, T.; Takeyama, Masaharu; Tanaka, Kengo; Tomitsuka, Tomohiro; Toyoshima, Atsushi; Türler, Andreas; Usoltsev, I.; Wakabayashi, Y.; Wang, Y.; Wiehl, N.; Wittwer, Yves; Yakushev, A.; Yamaki, Shohei; Yano, Shinya; Qin, Zhi

doi:10.1051/epjconf/201613107005

Cited by 8 publications

(6 citation statements)

References 21 publications

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“…significant effect was only visible at O 2 concentrations as high as 1 vol-%. During previous, accelerator-based studies, the yield for the formation of Mo(CO) 6 was determined to be only about 40% [26]. It was assumed, that this might be caused by O 2 -impurities being present in the process gas during those experiments.…”

Section: Gasmentioning

confidence: 99%

“…However, since the experiments using FORA were performed using single-atom chemistry conditions, the dilution of atoms is too high to allow for the formation of such polynuclear complexes. It is therefore not clear yet, what carbonyl-species are exactly formed for Tc and Rh [10,11,26,27]. For group 7 elements, the formation of hydrides (e.g.…”

Section: Fora-operationmentioning

confidence: 99%

“…Experiments targeted at investigating and comparing the chemistry of group 6 MCCs were suffering so far from low chemical and transport yields, ranging from about 40% for Mo(CO) 6 to 10-20% for W(CO) 6 and 5% for Sg(CO) 6 [26]. This caused serious doubts about investigating heavier TAs in form of MCCs in general.…”

Section: Introductionmentioning

confidence: 99%

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The influence of chemical parameters on the in-situ metal carbonyl complex formation studied with the fast on-line reaction apparatus (FORA)

et al. 2021

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A new setup named Fast On-line Reaction Apparatus (FORA) is presented which allows for the efficient investigation and optimization of metal carbonyl complex (MCC) formation reactions under various reaction conditions. The setup contains a 252Cf-source producing short-lived Mo, Tc, Ru and Rh isotopes at a rate of a few atoms per second by its 3% spontaneous fission decay branch. Those atoms are transformed within FORA in-situ into volatile metal carbonyl complexes (MCCs) by using CO-containing carrier gases. Here, the design, operation and performance of FORA is discussed, revealing it as a suitable setup for performing single-atom chemistry studies. The influence of various gas-additives, such as CO2, CH4, H2, Ar, O2, H2O and ambient air, on the formation and transport of MCCs was investigated. O2, H2O and air were found to harm the formation and transport of MCCs in FORA, with H2O being the most severe. An exception is Tc, for which about 130 ppmv of H2O caused an increased production and transport of volatile compounds. The other gas-additives were not influencing the formation and transport efficiency of MCCs. Using an older setup called Miss Piggy based on a similar working principle as FORA, it was additionally investigated if gas-additives are mostly affecting the formation or only the transport stability of MCCs. It was found that mostly formation is impacted, as MCCs appear to be much less sensitive to reacting with gas-additives in comparison to the bare Mo, Tc, Ru and Rh atoms.

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Section: Gasmentioning

confidence: 99%

Section: Fora-operationmentioning

confidence: 99%

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The influence of chemical parameters on the in-situ metal carbonyl complex formation studied with the fast on-line reaction apparatus (FORA)

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“…For example, Mo(CO) 6 could only be produced with a yield of about 40%. For W(CO) 6 and Sg(CO) 6 , the overall yields were at maximum about 20 and 5%, respectively [27]. These low yields represent a critical problem for the application of MCCs in transactinide research.…”

Section: Introductionmentioning

confidence: 97%

“…It is expected that Sg, Bh, Hs and Mt form volatile MCCs, based on the behavior or their lighter homologous in the corresponding groups of the periodic table. Mt was not chemically investigated in the past at all [14,27]. The synthesis of a volatile MCC from Sg, Sg(CO) 6 was recently accomplished by an international research group [28].…”

Section: Introductionmentioning

confidence: 99%

The influence of physical parameters on the in-situ metal carbonyl complex formation studied with the Fast On-line Reaction Apparatus (FORA)

et al. 2021

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The Fast On-line Reaction Apparatus (FORA) was used to investigate the influence of various reaction parameters onto the formation and transport of metal carbonyl complexes (MCCs) under single-atom chemistry conditions. FORA is based on a 252Cf-source producing short-lived Mo, Tc, Ru and Rh isotopes. Those are recoiling from the spontaneous fission source into a reaction chamber flushed with a gas-mixture containing CO. Upon contact with CO, fission products form volatile MCCs which are further transported by the gas stream to the detection setup, consisting of a charcoal trap mounted in front of a HPGe γ-detector. Depending on the reaction conditions, MCCs are formed and transported with different efficiencies. Using this setup, the impact of varying physical parameters like gas flow, gas pressure, kinetic energy of fission products upon entering the reaction chamber and temperature of the reaction chamber on the formation and transport yields of MCCs was investigated. Using a setup similar to FORA called Miss Piggy, various gas mixtures of CO with a selection of noble gases, as well as N2 and H2, were investigated with respect to their effect onto MCC formation and transport. Based on this measurements, optimized reaction conditions to maximize the synthesis and transport of MCCs are suggested. Explanations for the observed results supported by simulations are suggested as well.

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Radioelements

2021

Nuclear and Radiochemistry

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Complex chemistry with complex compounds

Cited by 8 publications

References 21 publications

The influence of chemical parameters on the in-situ metal carbonyl complex formation studied with the fast on-line reaction apparatus (FORA)

The influence of chemical parameters on the in-situ metal carbonyl complex formation studied with the fast on-line reaction apparatus (FORA)

The influence of physical parameters on the in-situ metal carbonyl complex formation studied with the Fast On-line Reaction Apparatus (FORA)

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