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protonolysis

Protonolysis is the cleavage of a chemical bond by reaction with a proton, typically from a Brønsted acid. In inorganic and organometallic chemistry it most often refers to the reaction of a metal–carbon bond (M–R) or a metal–heteroatom bond (M–OR, M–NR2) with a proton, yielding a hydrocarbon (RH) and a regenerated metal species, such as a metal hydride (M–H) or a metal–hydroxide (M–OH).

General mechanism and scope: Protonolysis involves proton transfer to the bond, followed by heterolytic cleavage to

Examples: A typical case is M–R reacting with H+, giving RH and M–H. Protonolysis of M–OR with

Applications and context: Protonolysis is an important step in many catalytic cycles, including termination of polymerization

release
RH
or
ROH
and
generate
a
new
metal
fragment.
The
process
can
be
concerted
or
stepwise
and
is
influenced
by
factors
such
as
acid
strength,
solvent,
and
the
electronic
and
steric
environment
of
the
metal
center.
In
organometallic
catalysis,
protonolysis
often
terminates
a
metal–carbon
intermediate
to
release
product
and
regenerate
a
reactive
site
(e.g.,
a
metal–hydride
or
a
different
oxidation
state
complex).
H+
can
yield
ROH
and
M–OH.
Depending
on
the
system,
protonolysis
can
also
cleave
other
C–heteroatom
bonds
in
coordinated
substrates,
producing
the
corresponding
alcohols
or
related
products
and
a
protonated
metal
fragment.
processes
and
release
of
organic
products
from
metal
intermediates.
It
is
distinct
from
hydrolysis,
where
water
serves
as
the
proton
donor;
protonolysis
uses
a
Brønsted
acid
and
is
not
inherently
limited
to
aqueous
media.