Issue 12, 2015

Rhodium catalysed conversion of carbenes into ketenes and ketene imines using PNN pincer complexes

Abstract

Ketene synthesis involving catalytic carbonylation of carbenes is an interesting alternative to traditional synthetic protocols, offering milder conditions to diversified products. Analogous catalytic ketene imine production from carbenes and isocyanides is also a promising reaction. However, both methods are underdeveloped. Rhodium carbonyl complexes B and E, based on (6-(phosphinomethyl)pyridin-2-yl)methan-sec-amine type PNN ligand scaffolds, reveal good catalytic activities in ketene and ketene imine production using ethyl diazoacetate (EDA, 1) or sodium 2-benzylidene-1-tosylhydrazin-1-ide (5) as the carbene precursors, as demonstrated by in situ amide/imidamide and β-lactam synthesis. DFT calculations suggest that diazo activation is the rate-determining step and that NH-deprotonation of the ligand produces a more active rhodium complex. The ketene formation step likely proceeds via an outer-sphere CO insertion mechanism. Subsequent stepwise and concerted [2 + 2] cyclization mechanisms have comparable barriers. The complexes are the first rhodium catalysts reported for catalytic ketene/ketene imine production from carbenoids. The higher affinity of rhodium for binding ketene or ketene imine intermediates as compared to other reported metal catalysts (i.e. Pd, Co) may provide opportunities for future enantioselective reactions when using chiral ligands.

Graphical abstract: Rhodium catalysed conversion of carbenes into ketenes and ketene imines using PNN pincer complexes

Supplementary files

Article information

Article type
Research Article
Submitted
16 Way 2015
Accepted
15 Dit 2015
First published
15 Dit 2015
This article is Open Access
Creative Commons BY-NC license

Org. Chem. Front., 2015,2, 1561-1577

Author version available

Rhodium catalysed conversion of carbenes into ketenes and ketene imines using PNN pincer complexes

Z. Tang, S. Mandal, N. D. Paul, M. Lutz, P. Li, J. I. van der Vlugt and B. de Bruin, Org. Chem. Front., 2015, 2, 1561 DOI: 10.1039/C5QO00287G

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