Expanding the Toolbox of Heterogeneous Asymmetric Organocatalysts: Bifunctional Cyclopropenimine Superbases for Enantioselective Catalysis in Batch and Continuous Flow

Costanza Leonardi, Arianna Brandolese, Lorenzo Preti, Olga Bortolini, Eleonora Polo, Paolo Dambruoso, Daniele Ragno, Graziano Di Carmine*, Alessandro Massi*

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

5 Citations (Scopus)
44 Downloads (Pure)

Abstract

A strategy for the immobilization of chiral 2,3-bisaminocyclopropenium salt (pre-catalyst) onto polystyrene and silica supports is presented together with a suitable procedure for the conversion into the corresponding cyclopropenimine superbase catalysts. The activity and recyclability of polystyrene- and silica-supported cyclopropenimines were initially tested under batch conditions in a model Michael addition detecting comparable efficiencies but a superior stability of the latter heterogeneous catalyst (5 cycles, accumulated TON of 27.1). The preferred silica-supported cyclopropenimine behaved very similarly to the soluble counterpart in the reaction of glycine imine with different Michael acceptors (48–92% yield; 60–98% ee) and it could be utilized as packing material for the fabrication of fixed-bed mesoreactors (pressure-resistant stainless-steel columns). Continuous-flow experiments were performed with satisfactory long-term stability (24 h on stream) with unaltered conversion efficiency and enantioselectivity. (Figure presented.).

Original languageEnglish
Pages (from-to)5473-5485
Number of pages13
JournalAdvanced Synthesis and Catalysis
Volume363
Issue number24
Early online date15 Sept 2021
DOIs
Publication statusPublished - 21 Dec 2021

Bibliographical note

Funding Information:
We gratefully acknowledge the University of Ferrara (fondi FAR) for financial support. Thanks are also given to Paolo Formaglio for NMR experiments, to Tatiana Bernardi for HRMS analyses, and to Ercolina Bianchini for elemental analyses.

Publisher Copyright:
© 2021 Wiley-VCH GmbH.

Keywords

  • asymmetric catalysis
  • Brønsted base
  • C-C coupling
  • flow chemistry
  • heterogeneous catalysis
  • immobilization
  • Michael addition
  • organocatalysis
  • packed-bed reactor

ASJC Scopus subject areas

  • Catalysis
  • Organic Chemistry

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