In the structures of (C6F5)2Hg·M(acac)2 (M = Pt, Pd; acacH = acetylacetone), infinite stacks of alternating crisscrossing coformers are held by the pure HgII⋯dz2-[MII] spodium bond (11–15 kcal mol−1) occurring between the electrophilic mercury(II) ion and d-nucleophilic [MII] sites of the positively charged PtII and PdII ions. X-ray diffraction studies reveal short Hg⋯M contacts (3.1051(1) Å for M = Pt; 3.1033(3) Å for M = Pd) significantly less than the sum of their van der Waals radii. Detailed density functional theory calculations, including QTAIM, NBO, and SAPT analyses, demonstrate the multifaceted nature of these interactions. The spodium bonds exhibit predominantly electrostatic character, with significant contributions from dispersion forces and orbital interactions. The PtII complex shows slightly stronger interactions compared to its PdII counterpart due to the more pronounced dz2-orbital of platinum. These pure heterometallic spodium bonds, unaffected by other noncovalent interactions, provide valuable insights for theoretical studies on spodium bonding.
Язык оригиналаанглийский
Страницы (с-по)5607-5616
ЖурналCrystEngComm
Номер выпуска26
Дата раннего онлайн-доступа13 сен 2024
DOI
СостояниеОпубликовано - 13 сен 2024

    Области исследований

  • нековалентные взаимодействия, сподиевая связь, платина, палладий

ID: 125271302