https://www.nature.com/nature/journal/v545/n7652/abs/nature22316.html
Remote carboxylation of halogenated aliphatic hydrocarbons with carbon dioxide
Catalytic carbon–carbon bond formation has enabled the streamlining of synthetic routes when assembling complex molecules1.
It is particularly important when incorporating saturated hydrocarbons,
which are common motifs in petrochemicals and biologically relevant
molecules. However, cross-coupling methods that involve alkyl
electrophiles result in catalytic bond formation only at specific and
previously functionalized sites2.
Here we describe a catalytic method that is capable of promoting
carboxylation reactions at remote and unfunctionalized aliphatic sites
with carbon dioxide at atmospheric pressure. The reaction occurs via
selective migration of the catalyst along the hydrocarbon side-chain3
with excellent regio- and chemoselectivity, representing a remarkable
reactivity relay when compared with classical cross-coupling reactions.
Our results demonstrate that site-selectivity can be switched and
controlled, enabling the functionalization of less-reactive positions in
the presence of a priori more reactive ones. Furthermore, we
show that raw materials obtained in bulk from petroleum processing, such
as alkanes and unrefined mixtures of olefins, can be used as
substrates. This offers an opportunity to integrate a catalytic platform
en route to valuable fatty acids by transforming petroleum-derived
feedstocks directly4.
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