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Backbone Reactivity of Lithium β-Diketiminate (NacNac) Complexes with CO2 , tBuNCO and iPrNCO.

Richard M GauldRoss McLellanAlan R KennedyJim BarkerJacqueline ReidRobert E Mulvey
Published in: Chemistry (Weinheim an der Bergstrasse, Germany) (2019)
Though alkali metal NacNac (β-diketiminate) complexes have been utilised in synthesis as NacNac-transfer agents, studies of them in their own right with small molecules are exceptionally rare. Here, the lithium compound of the common 2,6-diisopropylphenyl-β-methyldiketiminate [NacNac(Dipp, Me)] ligand is investigated with carbon dioxide and isocyanates. In all four cases reaction occurs at the backbone γ-C atom of the NacNac ligand, which redistributes electronically into a diimine. Insertion of CO2 gives an eight-atom carboxylate (Li2 O4 C2 ) ring at the γ-C site in a dimer. Insertion of tBuNCO gives a secondary amide at the γ-C site in a monomer with TMEDA chelating lithium. Double insertion of tBuNCO and (adventitious) oxygen gives a dimer with a (LiO)2 central core involving the latter source. Insertion of less bulky (iPrNCO) gives a dimer with dimerisation through the C=O bonds of the emergent secondary amide function.
Keyphrases
  • carbon dioxide
  • solid state
  • molecular dynamics
  • electron transfer
  • case control
  • single molecule
  • ion batteries