Advanced Synthesis & Catalysis,
Год журнала:
2021,
Номер
363(16), С. 3868 - 3878
Опубликована: Апрель 30, 2021
Abstract
Directing
group‐assisted
C−H
activation
has
been
widely
used
to
control
regioselectivity
in
the
field
of
transition‐metal‐catalyzed
functionalization.
Common
functionalities
found
complex
organic
molecules
and/or
readily
available
reagents
are
most
appealing
directing
groups,
as
they
circumvent
need
install/remove
group.
The
aldehyde
group
is
an
important
functional
many
areas
including
pharmaceuticals
and
material
science.
In
this
review,
we
present
current
state‐of‐the‐art
aldehyde‐assisted,
sp
2
functionalization
arenes.
magnified
image
Chemical Society Reviews,
Год журнала:
2021,
Номер
50(20), С. 11249 - 11269
Опубликована: Янв. 1, 2021
The
site-selective
C-H
bond
functionalization
of
heteroarenes
can
eventually
provide
chemists
with
great
techniques
for
editing
and
building
complex
molecular
scaffolds.
During
the
past
decade,
benzo-fused
N-heterocycles
such
as
indoles
quinolines
have
been
among
most
widely
investigated
organic
templates.
Early
developments
led
to
on
pyrrole
pyridine
cores
quinolines;
however,
benzenoid
ring
has
remained
a
challenge
in
catalysis.
In
this
review,
we
elaborate
recent
highly
challenging
bonds
less-reactive
core
quinolines.
These
findings
are
mainly
described
selective
directing
group
assisted
strategies,
remote
their
reaction
mechanisms.
underlying
principle
each
strategy
is
elucidated,
which
aims
facilitate
design
more
advanced
structure
heterocycles
based
bioactive
molecules,
synthetic
drugs,
material
aspects.
Moreover,
challenges
perspectives
catalytic
access
arene
backbone
also
proposed
conclusion
section.
Chemical Society Reviews,
Год журнала:
2022,
Номер
51(17), С. 7358 - 7426
Опубликована: Янв. 1, 2022
Transition
metal
catalysis
has
contributed
immensely
to
C-C
bond
formation
reactions
over
the
last
few
decades,
and
alkylation
is
no
exception.
The
superiority
of
such
methodologies
traditional
evident
from
minimal
reaction
steps,
shorter
times,
atom
economy
while
also
allowing
control
regio-
stereo-selectivity.
In
particular,
hydrocarbonation
alkenes
grabbed
increased
attention
due
its
fundamental
ability
effectively
selectively
synthesise
a
wide
range
industrially
pharmaceutically
relevant
moieties.
This
review
attempts
provide
scientific
viewpoint
systematic
analysis
recent
developments
in
transition-metal-catalyzed
various
C-H
bonds
using
simple
activated
olefins.
key
features
mechanistic
studies
involved
these
transformations
are
described
briefly.
Journal of the American Chemical Society,
Год журнала:
2025,
Номер
unknown
Опубликована: Янв. 1, 2025
Polymers
with
rigid
three-dimensional
architectures
have
attracted
significant
attention
due
to
their
high
rigidity
and
intrinsic
microporosity.
Here,
we
report
the
synthesis
of
a
new
class
stepladder
polymers
featuring
unique
spirodihydroquinoline
skeletons.
Under
catalysis
half-sandwich
scandium
catalyst,
quinoline
compounds
bearing
both
an
aryl
substituent
(e.g.,
phenyl
or
naphthyl)
alkynyl
group
C≡CSiMe3)
selectively
undergo
dearomative
polyspiroannulation
between
skeleton
alkyne
unit
via
ortho-C–H
activation
group.
This
reaction
efficiently
yields
comprising
quaternary
carbon
stereocenter
unprotected
N–H
Treatment
N–H-containing
alkyl
lithium
reagent
followed
by
methyl
iodide
leads
quantitative
formation
corresponding
N-methylated
polymers,
which
exhibit
enhanced
thermal
stability
porosity
compared
counterparts.
Journal of the American Chemical Society,
Год журнала:
2021,
Номер
143(6), С. 2470 - 2476
Опубликована: Фев. 2, 2021
The
enantioselective
C–H
alkenylation
of
ferrocenes
with
alkynes
is,
in
principle,
a
straightforward
and
atom-efficient
route
for
the
construction
planar-chiral
ferrocene
scaffolds
bearing
alkene
functionality
but
has
remained
scarcely
explored
to
date.
Here
we
report
first
time
highly
quinoline-
pyridine-substituted
by
half-sandwich
scandium
catalyst.
This
protocol
features
broad
substrate
scope,
high
enantioselectivity,
100%
atom
efficiency,
selectively
affording
new
family
N/alkene
functionalities.
mechanistic
details
have
been
clarified
DFT
analyses.
use
quinoline/alkene-functionalized
product
as
chiral
ligand
asymmetric
catalysis
is
also
demonstrated.
Journal of the American Chemical Society,
Год журнала:
2021,
Номер
143(48), С. 20462 - 20471
Опубликована: Ноя. 23, 2021
The
catalytic
enantioselective
construction
of
three-dimensional
molecular
architectures
from
planar
aromatics
such
as
quinolines
is
great
interest
and
importance
the
viewpoint
both
organic
synthesis
drug
discovery,
but
there
still
exist
many
challenges.
Here,
we
report
scandium-catalyzed
asymmetric
dearomative
spiro-annulation
with
alkynes.
This
protocol
offers
an
efficient
selective
route
for
spiro-dihydroquinoline
derivatives
containing
a
quaternary
carbon
stereocenter
unprotected
N–H
group
readily
accessible
diverse
alkynes,
featuring
high
yields,
enantioselectivity,
100%
atom-efficiency,
broad
substrate
scope.
Experimental
density
functional
theory
studies
revealed
that
reaction
proceeded
through
C–H
activation
2-aryl
substituent
in
quinoline
by
scandium
alkyl
(or
amido)
species
followed
alkyne
insertion
into
Sc–aryl
bond
subsequent
1,2-addition
resulting
alkenyl
to
C═N
unit
moiety.
work
opens
new
avenue
dearomatization
quinolines,
leading
spiro
were
previously
difficult
access
other
means.
Journal of the American Chemical Society,
Год журнала:
2024,
Номер
146(14), С. 10187 - 10198
Опубликована: Март 28, 2024
The
[3
+
2]
or
[4
annulation
of
α,β-unsaturated
aldimines
with
alkenes
via
β′-
γ-allylic
C(sp3)–H
activation
is,
in
principle,
an
atom-efficient
route
for
the
synthesis
five-
six-membered-ring
cycloalkylamines,
which
are
important
structural
motifs
numerous
natural
products,
bioactive
molecules,
and
pharmaceuticals.
However,
such
a
transformation
has
remained
undeveloped
to
date
probably
due
lack
suitable
catalysts.
We
report
herein
first
time
regio-
diastereoselective
annulations
imines
allylic
by
half-sandwich
rare-earth
catalysts
having
different
metal
ion
sizes.
reaction
α-methyl-substituted
C5Me4SiMe3-ligated
scandium
catalyst
took
place
trans-diastereoselective
fashion
at
α-methyl
group
(β′-position),
exclusively
affording
alkylidene-functionalized
cyclopentylamines
excellent
trans-diastereoselectivity.
In
contrast,
β-methyl-substituted
C5Me5-ligated
cerium
proceeded
cis-diastereoselective
activation,
selectively
yielding
multisubstituted
2-cyclohexenylamines
cis-diastereoselectivity.
mechanistic
details
these
transformations
have
been
elucidated
deuterium-labeling
experiments,
kinetic
isotope
effect
studies,
isolation
key
intermediates.
This
work
offers
efficient
selective
protocol
new
family
cycloalkylamine
derivatives,
featuring
100%
atom
efficiency,
high
diastereoselectivity,
broad
substrate
scope,
unprecedented
mechanism.
Angewandte Chemie International Edition,
Год журнала:
2024,
Номер
63(13)
Опубликована: Янв. 16, 2024
The
search
for
efficient
and
selective
methods
the
divergent
synthesis
of
multi-substituted
aminotetralins
is
much
interest
importance.
We
report
herein
first
time
diastereoselective
[4+2]
annulation
2-methyl
aromatic
aldimines
with
alkenes
via
benzylic
C(sp
Inorganic Chemistry,
Год журнала:
2025,
Номер
unknown
Опубликована: Фев. 5, 2025
Rare-earth-catalyzed
annulation
reactions
using
alkenes
via
C–H
activation
offer
an
atom-efficient
approach
to
constructing
cyclic
compounds.
However,
the
mechanisms
underlying
these
remain
poorly
understood,
limiting
rational
design
of
related
catalytic
systems.
Recently,
Hou
and
Cong
reported
unprecedented
example
rare-earth-catalyst-controlled
diastereodivergent
asymmetric
[3
+
2]
aromatic
aldimines
with
alkenes.
To
elucidate
origins
diastereo-
enantioselectivity,
density
functional
theory
calculations
were
performed.
The
results
revealed
that
styrene
insertion
step
determines
stereoselectivity.
Styrene
follows
a
similar
metal–styrene
interaction
pattern
across
different
catalysts.
Specifically,
during
cis-insertion,
interacts
strongly
metal
center,
exhibiting
significant
Sc···Ph
interactions,
whereas
such
interactions
are
absent
trans-insertion.
Thus,
when
catalyst
is
employed
small
ligand,
stereoselectivity
primarily
governed
by
electronic
factors,
favoring
cis-insertion
mode.
In
contrast,
for
more
sterically
hindered
catalyst,
in
insufficient
overcome
steric
effects,
leading
preference
trans-insertion
mode,
which
minimizes
hindrance.
These
findings
deeper
insights
into
catalyst-controlled
enantioselectivity
will
also
contribute
stereospecific
rare-earth
catalysis.
Journal of the American Chemical Society,
Год журнала:
2025,
Номер
unknown
Опубликована: Фев. 5, 2025
The
regio-
and
stereoselective
hydroalkynylation
of
internal
alkynes
with
terminal
is
great
interest
importance
as
a
straightforward
route
for
synthesizing
multisubstituted
1,3-enynes.
However,
this
transformation
often
suffers
from
stereoselectivity
issues
when
working
unsymmetrical
alkynes.
Herein,
we
report
the
first
time
syn-stereoselective
variety
heteroatom-functionalized
including
homopropargyl
ethers,
thioethers,
tertiary
amines
by
half-sandwich
rare-earth
catalysts.
This
protocol
provides
an
atom-efficient
synthesis
new
family
heteroatom
(O,
S,
or
N)-functionalized
1,3-enynes,
featuring
100%
atom-efficiency,
broad
substrate
scope,
high
syn-stereoselectivity
(>19:1
r.r.
>19:1
syn/anti).
mechanistic
details
have
been
elucidated
deuterium-labeling
experiments,
control
isolation
transformations
key
reaction
intermediates,
revealing
that
proceeded
through
C(sp)–H
deprotonation
alkyne
scandium
alkyl
species
to
form
catalytically
active
dimeric
tetraalkynyl
followed
heteroatom-assisted
insertion
into
Sc–alkynyl
bond
subsequent
protonolysis
resulting
Sc–alkenyl
another
molecule.
coordination
N)
catalyst
metal
center
plays
critically
important
role
in
achieving
level
reactivity
stereoselectivity.
Remarkably,
can
be
recovered
reused,
constituting
example
recyclable
system
