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Carbon dioxide capture and functionalization by bis(N-heterocyclic carbene)-borylene complexes.

Jun FanAn-Ping KohChi-Shiun WuMing-Der SuCheuk-Wai So
Published in: Nature communications (2024)
Derivatives of free monocoordinated borylenes have attracted considerable interest due to their ability to exhibit transition-metal-like reactivity, in particular small molecules capture. However, such complexes are rare as the formation is either endergonic, or the resulting adduct is a transient intermediate that is prone to reaction. Here, we present the synthesis of two bis(N-heterocyclic carbene)-borylene complexes capable of capturing and functionalizing carbon dioxide. The capture and subsequent functionalization of CO 2 by the bis(NHC)-disilylamidoborylene 1 is demonstrated by the formation of the bis(NHC)-isocyanatoborylene-carbon dioxide complex 3. Reversible capture of CO 2 is observed using the bis(NHC)-mesitylborylene 2, and the persistent bis(NHC)-mesitylborylene-carbon dioxide adduct 4 can be stabilized by hydrogen bonding with boric acid. The reactions of 4 with ammonia-borane and aniline demonstrate that the captured CO 2 can be further functionalized.
Keyphrases
  • carbon dioxide
  • ionic liquid
  • transition metal
  • room temperature
  • quantum dots
  • high resolution