Molecules,
Год журнала:
2020,
Номер
26(1), С. 105 - 105
Опубликована: Дек. 28, 2020
Popular
and
readily
available
alkenes
alkynes
are
good
substrates
for
the
preparation
of
functionalized
molecules
through
radical
and/or
ionic
addition
reactions.
Difunctionalization
is
a
topic
current
interest
due
to
its
high
efficiency,
substrate
versatility,
operational
simplicity.
Presented
in
this
article
followed
by
oxidation
nucleophilic
reactions
difunctionalization
or
alkynes.
The
could
be
accomplished
1,2-addition
(vicinal)
1,n-addition
(distal
remote)
if
H-atom
group-transfer
involved
reaction
process.
A
wide
range
moieties,
such
as
alkyl
(R),
perfluoroalkyl
(Rf),
aryl
(Ar),
hydroxy
(OH),
alkoxy
(OR),
acetatic
(O2CR),
halogenic
(X),
amino
(NR2),
azido
(N3),
cyano
(CN),
well
sulfur-
phosphorous-containing
groups
can
incorporated
Radicals
generated
from
peroxides
single
electron
transfer
(SET)
agents,
under
photoredox
electrochemical
employed
ACS Catalysis,
Год журнала:
2020,
Номер
10(15), С. 8542 - 8556
Опубликована: Июль 2, 2020
1,2-Dicarbofunctionalization
of
alkenes
has
emerged
as
an
efficient
synthetic
strategy
for
preparing
substituted
molecules
by
coupling
readily
available
with
electrophiles
and/or
nucleophiles.
Nickel
complexes
serve
effective
catalysts
owing
to
their
tendency
undergo
facile
oxidative
addition
and
slow
β-hydride
elimination,
capability
access
both
two-electron
radical
pathways.
Two-component
alkene
functionalization
reactions
have
achieved
high
chemo-,
regio-,
stereoselectivities
tethering
one
the
partners
substrate.
Three-component
reactions,
however,
often
incorporate
directing
groups
control
selectivity.
Only
a
few
examples
directing-group-free
difunctionalizations
unactivated
been
reported.
Therefore,
great
opportunities
exist
development
three-component
difunctionalization
broad
substrate
scopes
tunable
stereoselectivities.
Chemical Reviews,
Год журнала:
2022,
Номер
122(9), С. 8181 - 8260
Опубликована: Март 14, 2022
The
chemistry
of
nitrogen-centered
radicals
(NCRs)
has
plentiful
applications
in
organic
synthesis,
and
they
continue
to
expand
as
our
understanding
these
reactive
species
increases.
utility
intermediates
is
demonstrated
the
recent
advances
C–H
amination
(di)amination
alkenes.
Synthesis
previously
challenging
structures
can
be
achieved
by
efficient
functionalization
sp2
moieties
without
prefunctionalization,
allowing
for
faster
more
streamlined
synthesis.
This
Review
addresses
generation,
reactivity,
application
NCRs,
including,
but
not
limited
to,
iminyl,
aminyl,
amidyl,
aminium
species.
Contributions
from
early
discovery
up
most
examples
have
been
highlighted,
covering
radical
initiation,
thermolysis,
photolysis,
and,
recently,
photoredox
catalysis.
Radical-mediated
intermolecular
(hetero)arenes
occur
with
a
variety
complex
amine
precursors,
generating
aniline
derivatives,
an
important
class
drug
development.
Functionalization
olefins
achievable
high
anti-Markovnikov
regioselectivity
allows
access
difunctionalized
when
intermediate
carbon
are
trapped.
Additionally,
reactivity
NCRs
harnessed
rapid
construction
N-heterocycles
such
pyrrolidines,
phenanthridines,
quinoxalines,
quinazolinones.
ACS Catalysis,
Год журнала:
2022,
Номер
12(19), С. 11984 - 11999
Опубликована: Сен. 19, 2022
Radical/radical
cross-coupling
reactions
represent
an
efficient
and
straightforward
approach
for
the
construction
of
chemical
bonds
accordingly
have
drawn
increasing
attention
over
past
decades.
In
order
to
achieve
synthetically
useful
transformations,
a
persistent
radical
should
be
coupled
with
transient
in
accordance
effect
(PRE).
However,
known
radicals
outnumber
by
far
types
free
radicals,
which
limits
widespread
application
PRE,
until
today.
Thus,
development
between
has
been
focus,
meanwhile
transition-metal
catalysis
successfully
implemented
artificially
prolong
lifetimes,
allowing
their
utilization
formal
radical/radical
cross-couplings.
Complementary
research
field
recently
uncovered
that
organocatalytically
generated
NHC-derived
ketyl
are
type
catalytically
radicals.
NHC-catalyzed
transformations
aldehydes
carboxylic
acid
derivatives
enabled
disclosure
ever-increasing
number
interesting
reactions,
different
from
traditional
ionic
processes,
offering
otherwise
inaccessible
activation
modes.
These
discoveries
opened
door
NHC
organocatalysis
manipulation
reactions.
Due
its
obvious
potential
synthetic
organic
chemistry,
it
is
timely
provide
perspective
on
this
emerging
field.
Angewandte Chemie International Edition,
Год журнала:
2020,
Номер
59(45), С. 19956 - 19960
Опубликована: Июль 23, 2020
Despite
the
great
potential
of
radical
chemistry
in
organic
synthesis,
N-heterocyclic
carbene
(NHC)-catalyzed
reactions
involving
intermediates
are
not
well
explored.
This
communication
reports
three-component
coupling
aroyl
fluorides,
styrenes
and
Langlois
reagent
(CF3
SO2
Na)
to
give
various
β-trifluoromethylated
alkyl
aryl
ketones
with
good
functional
group
tolerance
moderate
high
yields
by
cooperative
photoredox/NHC
catalysis.
The
alkene
acyltrifluoromethylation
proceeds
via
radical/radical
cross
ketyl
radicals
benzylic
C-radicals.
generated
SET
reduction
situ
formed
acylazolium
ions
whereas
derive
from
trifluoromethyl
addition
onto
styrenes.
Green Synthesis and Catalysis,
Год журнала:
2020,
Номер
1(1), С. 42 - 51
Опубликована: Июнь 1, 2020
Visible-light
photoredox
catalysis
is
a
powerful
and
attractive
strategy
for
organic
molecule
activation
new
reaction
design
owing
to
its
environmental-friendly
characteristics
unique
catalytic
mechanisms,
has
found
wide
applications
in
synthesis.
This
enables
controllable
generation
of
diverse
nitrogen-centered
radicals
(NCRs)
under
mild
conditions,
providing
access
construction
nitrogen-containing
compounds.
In
this
review,
we
critically
illustrate
the
recent
advances
field
visible-light
photoredox-catalyzed
cyclization
radicals,
based
on
different
radical
precursors
modes.
Wherever
possible,
particular
emphasis
also
put
working
models
synthetic
applications.
Chemical Society Reviews,
Год журнала:
2022,
Номер
51(16), С. 7206 - 7237
Опубликована: Янв. 1, 2022
This
review
covers
the
recent
progress
in
electro-/photo-catalytic
alkene-derived
radical
cation
chemistry
for
organic
synthesis,
including
synthetic
strategies,
plausible
mechanisms
and
further
research
outlook.
Organic Chemistry Frontiers,
Год журнала:
2021,
Номер
8(18), С. 5206 - 5228
Опубликована: Янв. 1, 2021
Various
alkene
difunctionalization
reactions
involving
nitridization,
diamination,
azidation,
oxyamination,
carboamination,
aminohalogenation,
and
nitration
are
introduced
in
this
review.
Journal of the American Chemical Society,
Год журнала:
2021,
Номер
143(27), С. 10282 - 10291
Опубликована: Июнь 24, 2021
Transition-metal-catalyzed
dicarbofunctionalization
of
alkenes
involving
intramolecular
Heck
cyclization
followed
by
intermolecular
cross-coupling
has
emerged
as
a
powerful
engine
for
building
heterocycles
with
sterically
congested
quaternary
carbon
centers.
However,
only
exo-cyclization/cross-coupling
products
can
be
obtained;
endo-selective
cyclization/cross-coupling
not
been
reported
yet
and
still
poses
formidable
challenge.
We
herein
report
the
first
example
catalyst-controlled
regiodivergent
synthesis
five-
six-membered
benzo-fused
lactams
bearing
all-carbon
Using
chiral
Pyrox-
or
Phox-type
bidentate
ligand,
5-exo
cyclization/cross-couplings
proceed
favorably
to
produce
indole-2-ones
in
good
yields
excellent
regioselectivity
enantioselectivities
(up
98%
ee).
When
C6-carboxylic
acid-modified
2,2′-bipyridine
was
used
3,4-dihydroquinolin-2-ones
were
obtained
through
6-endo-selective
processes.
This
transformation
is
modular
tolerant
variety
functional
groups.
The
ligand
rather
than
substrate
structures
precisely
dictates
pattern.
Moreover,
synthetic
value
this
protocol
demonstrated
preparation
biologically
relevant
molecules
structural
scaffolds.
