Chemical Science,
Год журнала:
2023,
Номер
14(9), С. 2379 - 2385
Опубликована: Янв. 1, 2023
The
development
of
strategies
for
single
and
selective
C-F
bond
activation
represents
an
important
avenue
to
overcome
limitations
in
the
synthesis
valuable
fluorine-containing
compounds.
synthetic
medicinal
research
communities
would
benefit
from
new
routes
that
access
such
relevant
molecules
a
simple
manner.
Herein
we
disclose
straightforward
mechanistically
distinct
pathway
generate
gem-difluoromethyl
radicals
their
installation
onto
N-arylmethacrylamides
preparation
difluorinated
oxindole
derivatives.
To
achieve
operational
simplicity,
use
readily
available
benzenethiol
as
photocatalyst
under
open-to-air
conditions
was
developed,
demonstrating
facile
multigram
targeted
fluorinated
molecules.
Additionally,
dispersion-corrected
density
functional
theory
(DFT)
empirical
investigations
provide
basis
support
proposed
reaction
pathway,
indicating
arene
thiolate
is
efficient
organophotocatalyst
this
transformation.
ACS Catalysis,
Год журнала:
2023,
Номер
13(11), С. 7339 - 7346
Опубликована: Май 16, 2023
The
conversion
of
easily
available
trifluoromethylarenes
through
C–F
bond
activation
provides
an
attractive
pathway
for
rapid
access
to
difluorobenzylic
substructures
in
producing
pharmaceuticals
and
agrochemicals.
However,
recent
advances
this
area
have
been
confined
C–C(H)
construction,
thus
limiting
the
diversity
accessible
motifs.
In
contrast,
selective
formation
a
carbon–heteroatom
via
functionalization,
which
enable
fast
convenient
diverse
fluorine-containing
motifs
with
high
chemical
diversity,
remains
formidable
synthetic
challenge.
Herein,
we
disclosed
Lewis
acid
promoted
photoredox-catalyzed
strategy
construction
C–X
(X
=
S,
O
or
Se)
bonds
by
single
C(sp3)–F
trifluoromethylarenes,
direct
synthesis
medicinally
interesting
aryldifluoromethyl
ether
[ArCF2X–
O,
Se)]
scaffolds.
This
method
relies
on
readily
reagents
can
tolerate
range
thiol,
phenol,
selenol
nucleophiles.
Its
utility
was
exemplified
late-stage
modifications
several
pharmaceutical
ingredients.
Preliminary
studies
suggest
two
parallel
pathways:
photocatalytic
electron-transfer
(SET),
electron
donor–acceptor
(EDA)
process.
Chemical Science,
Год журнала:
2023,
Номер
14(12), С. 3229 - 3234
Опубликована: Янв. 1, 2023
Reagents
for
the
activation
of
C–Cl
bond
via
XAT
process
are
described.
The
reaction
efficiency
is
based
on
stereoelectronic
effects.
method
applied
to
chlorofluorocarbons.
Green Chemistry,
Год журнала:
2023,
Номер
25(8), С. 3095 - 3102
Опубликована: Янв. 1, 2023
A
regiodivergent
electrochemical
defluorocarboxylation
of
gem
-difluorocyclopropanes
is
realized,
providing
access
to
branched
and
linear
carboxylated
monofluorinated
alkenes.
Molecules,
Год журнала:
2023,
Номер
28(16), С. 6127 - 6127
Опубликована: Авг. 18, 2023
The
functionalisation
of
C–H
bonds
has
been
an
enormous
achievement
in
synthetic
methodology,
enabling
new
retrosynthetic
disconnections
and
affording
simple
equivalents
for
synthons.
Hydrogen
atom
transfer
(HAT)
is
a
key
method
forming
alkyl
radicals
from
substrates.
Classic
reactions,
including
the
Barton
nitrite
ester
reaction
Hofmann–Löffler–Freytag
reaction,
among
others,
provided
early
examples
HAT.
However,
recent
developments
photoredox
catalysis
electrochemistry
have
made
HAT
powerful
tool
capable
introducing
wide
range
functional
groups
into
bonds.
Moreover,
greater
mechanistic
insights
stimulated
development
increasingly
site-selective
protocols.
Site-selectivity
can
be
achieved
through
tuning
electron
density
at
certain
using
additives,
judicious
choice
reagent,
solvent
system.
Herein,
we
describe
latest
methods
functionalizing
C–H/Si–H/Ge–H
indirect
between
2018–2023,
as
well
critical
discussion
reagents,
aspects,
substrate
scopes,
background
contexts
Chemical Science,
Год журнала:
2023,
Номер
14(9), С. 2379 - 2385
Опубликована: Янв. 1, 2023
The
development
of
strategies
for
single
and
selective
C-F
bond
activation
represents
an
important
avenue
to
overcome
limitations
in
the
synthesis
valuable
fluorine-containing
compounds.
synthetic
medicinal
research
communities
would
benefit
from
new
routes
that
access
such
relevant
molecules
a
simple
manner.
Herein
we
disclose
straightforward
mechanistically
distinct
pathway
generate
gem-difluoromethyl
radicals
their
installation
onto
N-arylmethacrylamides
preparation
difluorinated
oxindole
derivatives.
To
achieve
operational
simplicity,
use
readily
available
benzenethiol
as
photocatalyst
under
open-to-air
conditions
was
developed,
demonstrating
facile
multigram
targeted
fluorinated
molecules.
Additionally,
dispersion-corrected
density
functional
theory
(DFT)
empirical
investigations
provide
basis
support
proposed
reaction
pathway,
indicating
arene
thiolate
is
efficient
organophotocatalyst
this
transformation.
