6533b7dbfe1ef96bd127010b

RESEARCH PRODUCT

First Ionization Potentials of Fm, Md, No, and Lr

Shinichi IchikawaD. SatoYuichiro NagameYuichiro NagameMasato AsaiAkihiko OsaAkina MitsukaiAkina MitsukaiHiroyuki MakiiUzi KaldorEphraim EliavYudai ShigekawaMinoru SakamaMatthias SchädelJens Volker KratzShinsaku TakedaRandolf BeerwerthRandolf BeerwerthKazuhiro OoeAtsushi ToyoshimaStephan FritzscheStephan FritzscheThierry StoraY. KaneyaY. KaneyaD. RenischAnastasia BorschevskyTetsuya SatoChristoph E. DüllmannJessica GrundKazuaki Tsukada

subject

ENERGIESThermal ionizationchemistry.chemical_element01 natural sciencesBiochemistryCatalysisColloid and Surface ChemistrySURFACE-IONIZATIONPhysics in GeneralCHEMISTRYIonization0103 physical sciencesELEMENTS010306 general physicsSPECTROSCOPY010304 chemical physicsChemistryFermiumGeneral ChemistryActinideATOMMendeleviumNobeliumAtomic numberAtomic physicsLawrencium

description

We report the first ionization potentials (IP1) 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 IP1 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 IP1 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.

yearjournalcountryeditionlanguage
2018-11-07Journal of the American Chemical Society
10.1021/jacs.8b09068https://doi.org/10.1021/jacs.8b09068