Organic Letters,
Год журнала:
2024,
Номер
26(15), С. 3258 - 3262
Опубликована: Апрель 3, 2024
An
efficient
cobalt-catalyzed
selective
hydroboration
of
1,3-enynes
with
HBpin
toward
1,3-dienylboronate
esters
is
disclosed.
With
a
commercially
available
catalytic
system
Co(acac)2
and
dppf,
the
reactions
proceeded
well
to
afford
wide
range
1,3-dienylborates
in
moderate
high
yields.
This
protocol
features
cheap
base-metal
system,
broad
substrate
scope,
excellent
selectivity,
easy
gram-scale
preparation,
good
functional
group
tolerance
provides
access
synthetically
valuable
1,3-dienylborates.
Journal of the American Chemical Society,
Год журнала:
2021,
Номер
143(19), С. 7285 - 7291
Опубликована: Май 10, 2021
Herein
we
describe
a
protocol
for
the
unprecedented
stereodivergent
synthesis
of
tertiary
fluoride-tethered
allenes
bearing
stereogenic
center
and
axis
via
Cu/Pd
synergistic
catalysis.
A
broad
scope
conjugated
enynes
are
coupled
with
various
α-fluoroesters
in
high
yields
diastereoselectivities
generally
>99%
ee.
In
addition,
four
stereoisomers
allene
products
ensure
precise
access
to
corresponding
fluorinated
hydrofurans
novel
axial-to-central
chirality
transfer
process.
Chemical Science,
Год журнала:
2022,
Номер
13(29), С. 8491 - 8506
Опубликована: Янв. 1, 2022
Allenes
are
valuable
organic
molecules
that
feature
unique
physical
and
chemical
properties.
They
not
only
often
found
in
natural
products,
but
also
act
as
versatile
building
blocks
for
the
access
of
complex
molecular
targets,
such
pharmaceuticals,
functional
materials.
Therefore,
many
remarkable
elegant
methodologies
have
been
established
synthesis
allenes.
Recently,
more
methods
radical
allenes
developed,
clearly
emphasizing
associated
great
synthetic
values.
In
this
perspective,
we
will
discuss
recent
important
advances
ACS Catalysis,
Год журнала:
2024,
Номер
14(4), С. 2746 - 2757
Опубликована: Фев. 7, 2024
Remote
stereocontrol
in
transition-metal
catalysis
is
a
challenging
but
interesting
research
topic.
In
this
work,
we
achieved
copper-catalyzed
asymmetric
yne-allylic
substitution
using
electron-rich
arenes
and
acyclic
carbonates
through
remote
enantioselectivity
control.
The
reaction
delivers
variety
of
enantioenriched
products
that
contain
diverse
set
valuable
moieties,
such
as
conjugated
enynes,
indoles,
indolizines,
allenes,
dihydrofurans,
which
are
widely
used
organic
synthesis
act
key
units
bioactive
molecules
natural
products.
synthetic
value
protocol
has
been
demonstrated
series
further
transformations,
mechanistic
studies
have
conducted
to
gain
more
insight
into
the
reaction.
ACS Catalysis,
Год журнала:
2021,
Номер
11(21), С. 13363 - 13373
Опубликована: Окт. 19, 2021
Reactions
involving
allenyl
ion
intermediates
have
been
widely
applied
in
the
synthesis
of
functionalized
allenes,
but
reactions
radicals
less
studied
and
limited
successful
examples
realized
mainly
by
transition
metal
catalysis.
We
herein
demonstrate
generation
N-heterocyclic
carbene
(NHC)
organocatalysis
their
applications
three-component
radical
relay
1,4-alkylcarbonylation
1,3-enynes
without
participation.
This
strategy
could
accommodate
a
collection
different
alkyl
precursors
such
as
CF3I,
halides,
cycloketone
oxime
esters,
aliphatic
carboxylic
acid
derived
redox-active
enabling
convenient
pathway
to
access
range
synthetically
challenging
tetra-substituted
ketones
with
high
regioselectivity.
The
key
success
this
protocol
relied
on
Csp-C(O)sp2
radical–radical
coupling
NHC-bound
ketyl
radicals,
constructing
ketone
motifs
highly
efficient
reaction
pathway.
Chemical Science,
Год журнала:
2021,
Номер
12(40), С. 13564 - 13571
Опубликована: Янв. 1, 2021
Catalytic
difunctionalization
of
1,3-enynes
represents
an
efficient
and
versatile
approach
to
rapidly
assemble
multifunctional
propargylic
compounds,
allenes
1,3-dienes.
Controlling
selectivity
in
such
addition
reactions
has
been
a
long-standing
challenging
task
due
multiple
reactive
centers
resulting
from
the
conjugated
structure
1,3-enynes.
Herein,
we
present
straightforward
method
for
regiodivergent
sulfonylarylation
via
dual
nickel
photoredox
catalysis.
Hinging
on
nature
1,3-enynes,
diverse
reaction
pathways
are
feasible:
synthesis
α-allenyl
sulfones
1,4-sulfonylarylation,
or
preparation
(E)-1,3-dienyl
with
high
chemo-,
regio-
stereoselectivity
through
3,4-sulfonylarylation.
Notably,
this
is
first
example
that
catalysis
merged
achieve
Nature Communications,
Год журнала:
2022,
Номер
13(1)
Опубликована: Авг. 26, 2022
Abstract
The
merger
of
photoredox
and
transition-metal
catalysis
has
evolved
as
a
robust
platform
in
organic
synthesis
over
the
past
decade.
stereoselective
1,4-functionalization
1,3-enynes,
prevalent
synthon
synthetic
chemistry,
could
afford
valuable
chiral
allene
derivatives.
However,
tremendous
efforts
have
been
focused
on
ionic
reaction
pathway.
radical-involved
asymmetric
1,3-enynes
remains
prominent
challenge.
Herein,
we
describe
three-component
1,4-dialkylation
via
dual
chromium
to
provide
allenols.
This
method
features
readily
available
starting
materials,
broad
substrate
scope,
good
functional
group
compatibility,
high
regioselectivity,
simultaneous
control
axial
central
chiralities.
Mechanistic
studies
suggest
that
this
proceeds
through
redox-neutral
Chemical Science,
Год журнала:
2021,
Номер
12(34), С. 11316 - 11321
Опубликована: Янв. 1, 2021
We
disclose
herein
the
first
example
of
merging
photoredox
catalysis
and
copper
for
radical
1,4-carbocyanations
1,3-enynes.
Alkyl
N-hydroxyphthalimide
esters
are
utilized
as
precursors,
reported
mild
redox-neutral
protocol
has
broad
substrate
scope
remarkable
functional
group
tolerance.
This
strategy
allows
synthesis
diverse
multi-substituted
allenes
with
high
chemo-
regio-selectivities,
also
permitting
late
stage
allenylation
natural
products
drug
molecules.
Journal of the American Chemical Society,
Год журнала:
2022,
Номер
144(25), С. 11364 - 11376
Опубликована: Июнь 10, 2022
Pd-catalyzed
sequential
hydroamination
of
readily
available
1,3-enynes
is
reported.
The
redox-neutral
process
provides
an
efficient
route
to
synthesize
a
broad
scope
imidazolidinones,
thiadiazolidines,
and
imidazolidines.
Asymmetric
generates
series
synthetically
valuable,
enantioenriched
imidazolidinones.
Mechanistic
studies
revealed
that
the
transformation
occurred
via
intermolecular
enyne
pathway
give
allene
intermediate.
Subsequent
intramolecular
intermediate
proceeded
under
Curtin-Hammett
principle
provide
imidazolidinone
products.
ACS Catalysis,
Год журнала:
2022,
Номер
12(16), С. 10207 - 10221
Опубликована: Авг. 5, 2022
Catalytic
1,4-dicarbofunctionalization
of
1,3-enynes
is
a
powerful
strategy
for
the
synthesis
polysubstituted
allenes.
Despite
impressive
progress,
such
still
restricted
to
use
alkyl-metallic
reagents
or
pre-activated
radical
precursors,
thus
limiting
its
functional
group
compatibility
and
atom
economy.
Herein,
we
report
that
through
combination
decatungstate
photo-hydrogen
transfer
nickel
catalysis,
three-component
2-trifluoromethyl-1,3-enynes
achieved.
This
allows
modular
tetrasubstituted
CF3-allenes
under
exceptionally
mild
conditions.
A
variety
electrophiles
as
aryl
bromides,
alkenyl
acyl
chlorides,
alkynyl
bromides
were
successfully
employed
traps
lead
desired
products.
Another
significant
advantage
most
abundant
hydrocarbons
are
used
feedstocks,
wide
range
synthetically
versatile
groups
complex
drug-like
structures
can
be
easily
incorporated.
Based
on
experimental
density
theories,
possible
catalytic
cycle
involving
1,3-nickel
rearrangement
proposed.
The Journal of Organic Chemistry,
Год журнала:
2022,
Номер
87(8), С. 5229 - 5241
Опубликована: Март 29, 2022
An
N-heterocyclic
carbene
organocatalytic
1,4-difunctionalization
of
1,3-enynes
was
developed.
This
strategy
suitable
for
a
broad
spectrum
substrates
to
efficiently
synthesize
allenic
ketones
bearing
diverse
substituents.
Preliminary
mechanistic
studies
suggest
radical
reaction
pathway
this
acylalkylation
process.
