First Ionization Potentials of Fm, Md, No, and Lr: Verification of Filling-Up of 5f Electrons and Confirmation of the Actinide Series | Zendy

Tetsuya K. Sato | Zendy; Masato Asai | Zendy; Anastasia Borschevsky | Zendy; R. Beerwerth | Zendy; Y. Kaneya | Zendy; H. Makii | Zendy; Akina Mitsukai | Zendy; Y. Nagame | Zendy; Akihiko Osa | Zendy; Atsushi Toyoshima | Zendy; Kazuaki Tsukada | Zendy; M. Sakama | Zendy; Shinsaku Takeda | Zendy; Kazuhiro Ooe | Zendy; Daisuke Sato | Zendy; Yudai Shigekawa | Zendy; Shin-ichi Ichikawa | Zendy; Ch. E. Düllmann | Zendy; J.E. Grund | Zendy; D. Renisch | Zendy; Jens Volker Kratz | Zendy; M. Schädel | Zendy; Ephraim Eliav | Zendy; Uzi Kaldor | Zendy; S. Fritzsche | Zendy; T. Stora | Zendy

Open Access

First Ionization Potentials of Fm, Md, No, and Lr: Verification of Filling-Up of 5f Electrons and Confirmation of the Actinide Series

Author(s) -

Tetsuya K. Sato,

Masato Asai,

Anastasia Borschevsky,

R. Beerwerth,

Y. Kaneya,

H. Makii,

Akina Mitsukai,

Y. Nagame,

Akihiko Osa,

Atsushi Toyoshima,

Kazuaki Tsukada,

M. Sakama,

Shinsaku Takeda,

Kazuhiro Ooe,

Daisuke Sato,

Yudai Shigekawa,

Shin-ichi Ichikawa,

Ch. E. Düllmann,

J.E. Grund,

D. Renisch,

Jens Volker Kratz,

M. Schädel,

Ephraim Eliav,

Uzi Kaldor,

S. Fritzsche,

T. Stora

Publication year - 2018

Publication title -

journal of the american chemical society

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 7.115

H-Index - 612

eISSN - 1520-5126

pISSN - 0002-7863

DOI - 10.1021/jacs.8b09068

Subject(s) - actinide , chemistry , lanthanide , ionization , atomic physics , thermal ionization , electron , atom (system on chip) , atomic number , ionization energy , electron ionization , nuclear physics , physics , ion , inorganic chemistry , organic chemistry , computer science , embedded system

We report the first ionization potentials (IP 1 ) of the heavy actinides, fermium (Fm, atomic number Z = 100), mendelevium (Md, Z = 101), nobelium (No, Z = 102), and lawrencium (Lr, Z = 103), determined using a method based on a surface ionization process coupled to an online mass separation technique in an atom-at-a-time regime. The measured IP 1 values agree well with those predicted by state-of-the-art relativistic calculations performed alongside the present measurements. Similar to the well-established behavior for the lanthanides, the IP 1 values of the heavy actinides up to No increase with filling up the 5f orbital, while that of Lr is the lowest among the actinides. These results clearly demonstrate that the 5f orbital is fully filled at No with the [Rn]5f 14 7s 2 configuration and that Lr has a weakly bound electron outside the No core. In analogy to the lanthanide series, the present results unequivocally verify that the actinide series ends with Lr.

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