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Computational exploration of the reaction mechanism of the Cu+- catalysed synthesis of indoles from N-aryl enaminones
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Advisor(s)
Abstract(s)
We have studied the role of Cu+-phenantroline as a catalyst in
the cyclization of N-aryl-enaminones using density-functional
theory computations. The catalyst was found to bind the
substrate upon deprotonation of its eneaminone, and to
dramatically increase the acidity of the carbon adjacent to the
ketone functionality. The deprotonation of this carbon atom
yields a carbanion which attacks the aryl moiety, thereby
closing the heterocycle in the rate-determining step. This C–C
bond forming reaction was found to proceed much more
rapidly when preceded by re-protonation of the substrate
N-atom (which had lost H+ in the initial step). Hydride
transfer to the catalyst then completes the indole synthesis, in
a very fast step. The influence of Li+ and K+ on the regioselectivity
of the cyclization of bromo-substituted analogues
could not, however, be reproduced by our model. Alternative
pathways involving either single-electron transfer from the
catalyst to the substrate or ring cyclization without previous
carbon α-deprotonation were found to be kinetically or
thermodynamically inaccessible.
Description
Keywords
C–C coupling Cu(I) reactivity C–H bond activation
Citation
Bernardo C.E.P., Silva P.J. (2016). Computational exploration of the reaction mechanism of the Cu+-catalysed synthesis of indoles from N-aryl enaminones.Royal Society Open Science. http://dx.doi.org/10.1098/rsos.150582. ISSN 2054-5703.
Publisher
The Royal Society Publishing