Angewandte Chemie International Edition,
Год журнала:
2016,
Номер
55(51), С. 15910 - 15914
Опубликована: Ноя. 23, 2016
Abstract
A
dearomative
reduction
of
simple
arenes
has
been
developed
which
employs
a
visible‐light‐mediated
cycloaddition
with
an
N‐N‐arenophile
and
in
situ
diimide
reduction.
Subsequent
cycloreversion
or
fragmentation
the
arenophile
moiety
affords
1,3‐cyclohexadienes
1,4‐diaminocyclohex‐2‐enes,
compounds
that
are
not
synthetically
accessible
using
existing
dearomatization
reactions.
Importantly,
this
strategy
also
provides
numerous
opportunities
for
further
derivatization
as
well
site‐selective
functionalization
polynuclear
arenes.
Chemical Reviews,
Год журнала:
2018,
Номер
119(3), С. 1855 - 1969
Опубликована: Дек. 24, 2018
In
this
review,
we
summarize
the
origin
and
advancements
of
iridium-catalyzed
asymmetric
allylic
substitution
reactions
during
past
two
decades.
Since
first
report
in
1997,
Ir-catalyzed
have
attracted
intense
attention
due
to
their
exceptionally
high
regio-
enantioselectivities.
been
significantly
developed
recent
years
many
respects,
including
ligand
development,
mechanistic
understanding,
substrate
scope,
application
synthesis
complex
functional
molecules.
an
explicit
outline
ligands,
mechanism,
scope
nucleophiles,
applications
is
presented.
Chemical Reviews,
Год журнала:
2019,
Номер
119(8), С. 5057 - 5191
Опубликована: Апрель 9, 2019
Tetrahydroquinoline
is
one
of
the
most
important
simple
nitrogen
heterocycles,
being
widespread
in
nature
and
present
a
broad
variety
pharmacologically
active
compounds.
This
Review
summarizes
progress
achieved
chemistry
tetrahydroquinolines,
with
emphasis
on
their
synthesis,
during
period
from
mid-2010
to
early
2018.
Accounts of Chemical Research,
Год журнала:
2017,
Номер
50(10), С. 2539 - 2555
Опубликована: Сен. 22, 2017
ConspectusMetal
catalyzed
allylic
substitution
is
a
cornerstone
of
organometallic
and
synthetic
chemistry.
Enantioselective
versions
have
been
developed
with
catalysts
derived
from
transition
metals,
most
notably
molybdenum,
nickel,
ruthenium,
rhodium,
iridium,
palladium,
copper.
The
palladium-
the
iridium-catalyzed
turned
out
to
be
particularly
versatile
in
organic
synthesis
because
very
broad
scope
nucleophile
great
functional
group
compatibility.
Assets
reaction
are
formation
branched,
chiral
products
simple
monosubstituted
substrates,
high
degrees
regio-
enantioselectivity,
use
modular,
readily
available
ligands.
possibility
carbon,
nitrogen,
oxygen,
sulfur
compounds
as
well
fluoride
nucleophiles
allows
wide
range
building
blocks
prepared.Our
Account
begins
presentation
fundamental
schemes
We
will
focus
our
discussion
on
reactions
promoted
by
phosphoramidite
ligands,
though
numerous
ligands
employed.
subsequent
section
presents
brief
overview
mechanism
experimental
conditions.
Two
emerged.
In
type
1
(introduced
1997),
linear
esters
commonly
used
substrates
under
basic
2
2007),
environmentally
friendly
branched
alcohols
can
reacted
acidic
conditions;
occasionally,
derivatives
also
applied.
A
unique
feature
that
highly
electrophilic
intermediates
brought
weakly
activated
alkenes.The
text
ordered
according
strategies
followed
transform
desired
targets,
which
natural
or
drugs.
Syntheses
starting
an
intermolecular
discussed
first.
Some
fairly
complex
for
example,
potent
nitric
oxide
inhibitor
(−)-nyasol
drug
(−)-protrifenbute,
synthesized
via
less
than
five
steps
materials.Most
targets
cyclic
compounds.
Intermolecular
ring
closing
metathesis
powerful
strategy
their
synthesis.
Highlights
stereodivergent
syntheses
Δ9-tetrahydrocannabinols
(THC),
wherein
iridium-
organocatalysis
combined
(dual
catalysis).
combination
alkylation
Diels–Alder
was
utilized
synthesize
ketide
apiosporic
acid
fesoterodine
(Toviaz).
Sequential
amination,
hydroboration
Suzuki–Miyaura
coupling
generates
enones
suitable
conjugate
addition
reactions;
this
employed
variety
alkaloids,
poison
frog
alkaloid
(+)-cis-195A
(pumiliotoxin
C).Intramolecular
substitutions
offer
interesting
possibilities
build
up
stereochemical
complexity
short
routes.
For
diastereoselective
cyclizations
compounds,
substrate
control
overruled
catalyst
order
generate
cis-
trans-isomers
selectively
given
precursor.
This
approach
prepare
piperidine
pyrrolidine
alkaloids.
Finally,
polycyclic
structures,
including
structurally
unusual
indolosesquiterpenoid
mycoleptodiscin
A,
generated
diastereo-
enantioselectively
olefins
polyene
electron-rich
arenes,
such
indoles,
dearomatization
reactions.
ACS Central Science,
Год журнала:
2021,
Номер
7(3), С. 432 - 444
Опубликована: Фев. 22, 2021
Asymmetric
catalysis
has
been
recognized
as
the
most
enabling
strategy
for
accessing
chiral
molecules
in
enantioenriched
forms.
Catalytic
asymmetric
dearomatization
is
an
emerging
and
dynamic
research
subject
catalysis,
which
received
considerable
attention
recent
years.
The
direct
transformations
from
readily
available
aromatic
feedstocks
to
structurally
diverse
three-dimensional
polycyclic
make
catalytic
reactions
of
broad
interest
both
organic
synthesis
medicinal
chemistry.
However,
inherent
difficulty
disruption
aromaticity
demands
a
large
energy
input
during
process,
might
be
incompatible
with
conditions
generally
required
by
catalysis.
In
this
Outlook,
we
will
discuss
representative
strategies
examples
various
compounds
try
convince
readers
that
overcoming
above
obstacles,
could
advance
chemical
sciences
many
respects.
ACS Catalysis,
Год журнала:
2016,
Номер
6(8), С. 4814 - 4858
Опубликована: Июнь 9, 2016
Chiral
monophosphorus
ligands
are
playing
an
important
role
for
the
recent
advances
in
asymmetric
catalysis.
This
review
summarizes
latest
progress
various
catalytic
reactions
with
employment
of
chiral
including
allylic
substitution,
dearomative
arylation,
Heck
reaction,
cross-coupling,
C–H
bond
functionalization,
coupling
π
systems,
addition,
hydrogenation,
and
organocatalytic
reactions.
The
new
reactivity,
selectivity,
reaction
mechanism
enabled
by
these
discussed.
Journal of the American Chemical Society,
Год журнала:
2016,
Номер
138(16), С. 5234 - 5237
Опубликована: Апрель 7, 2016
A
catalytic,
enantioselective
γ-alkylation
of
α,β-unsaturated
malonates
and
ketoesters
is
reported.
This
strategy
entails
a
highly
regio-
iridium-catalyzed
α-alkylation
an
extended
enolate,
subsequent
translocation
chirality
to
the
γ-position
via
Cope
rearrangement.
Angewandte Chemie International Edition,
Год журнала:
2016,
Номер
55(45), С. 14111 - 14115
Опубликована: Окт. 10, 2016
Abstract
A
highly
enantioselective
dearomative
[3+2]
cycloaddition
of
benzothiazole
has
been
successfully
developed.
wide
range
benzothiazoles
and
cyclopropane‐1,1‐dicarboxylates
are
suitable
substrates
for
this
reaction.
The
desired
hydropyrrolo[2,1‐b]thiazole
compounds
were
obtained
in
excellent
enantioselectivity
yields
(up
to
97
%
ee
yield).
With
the
same
catalytic
system,
a
efficient
kinetic
resolution
2‐substituted
was
also
realized.
Catalysts,
Год журнала:
2018,
Номер
8(12), С. 632 - 632
Опубликована: Дек. 6, 2018
Amongst
nitrogen
heterocycles
of
different
ring
sizes
and
oxidation
statuses,
dihydropyridines
(DHP)
occupy
a
prominent
role
due
to
their
synthetic
versatility
occurrence
in
medicinally
relevant
compounds.
One
the
most
straightforward
approaches
polysubstituted
DHP
derivatives
is
provided
by
nucleophilic
dearomatization
readily
assembled
pyridines.
In
this
article,
we
collect
summarize
reactions
pyridines
reported
literature
between
2010
mid-2018,
complementing
updating
previous
reviews
published
early
2010s
dedicated
various
aspects
pyridine
chemistry.
Since
functionalization
nitrogen,
rendering
(transient)
pyridinium
ion,
usually
required
render
nucleus
sufficiently
electrophilic
suffer
attack
nucleophile,
material
organized
according
type
N-functionalization.
A
variety
species
(organometallic
reagents,
enolates,
heteroaromatics,
umpoled
aldehydes)
can
be
productively
engaged
reactions,
including
catalytic
asymmetric
implementations,
providing
useful
efficient
platforms
(enantioenriched)
DHPs.
Conversely,
also
lead
ylides.
These
dipolar
undergo
cycloaddition
with
electron-poor
dipolarophiles,
affording
polycyclic
frameworks
embedding
moiety
structures.
Journal of the American Chemical Society,
Год журнала:
2017,
Номер
139(24), С. 8082 - 8085
Опубликована: Июнь 9, 2017
Iridium-(P,olefin)
complex-catalyzed
enantio-
and
diastereoselective
formation
of
substituted
spiroketals
from
racemic,
allylic
carbonates
is
reported,
which
enables
the
installation
multiple
stereogenic
centers
in
a
single
operation.
The
protocol
was
effective
for
preparation
collection
various
ring
sizes
substituents,
including
heteroatoms
with
high
diastereoselectivity.
Furthermore,
cascade
reactions
that
couple
this
transformation
to
additional
reversible
processes
have
been
achieved
exert
concomitant
stereocontrol
over
centers.
