Angewandte Chemie International Edition,
Journal Year:
2024,
Volume and Issue:
63(10)
Published: Jan. 11, 2024
Transition
metal-catalyzed
enantioselective
C-H
carbonylation
with
carbon
monoxide,
an
essential
and
easily
available
C1
feedstock,
remains
challenging.
Here,
we
disclosed
unprecedented
catalyzed
by
inexpensive
readily
cobalt(II)
salt.
The
reactions
proceed
efficiently
through
desymmetrization,
kinetic
resolution,
parallel
affording
a
broad
range
of
chiral
isoindolinones
in
good
yields
excellent
enantioselectivities
(up
to
92
%
yield
99
ee).
synthetic
potential
this
method
was
demonstrated
asymmetric
synthesis
biological
active
compounds,
such
as
(S)-PD172938
(S)-Pazinaclone.
resulting
also
serve
ligands
cobalt-catalyzed
annulation
alkynes
construct
phosphorus
stereocenter.
Chemical Reviews,
Journal Year:
2021,
Volume and Issue:
122(2), P. 1925 - 2016
Published: Sept. 29, 2021
The
fields
of
C–H
functionalization
and
photoredox
catalysis
have
garnered
enormous
interest
utility
in
the
past
several
decades.
Many
different
scientific
disciplines
relied
on
strategies
including
natural
product
synthesis,
drug
discovery,
radiolabeling,
bioconjugation,
materials,
fine
chemical
synthesis.
In
this
Review,
we
highlight
use
reactions.
We
separate
review
into
inorganic/organometallic
catalysts
organic-based
catalytic
systems.
Further
subdivision
by
reaction
class─either
sp2
or
sp3
functionalization─lends
perspective
tactical
for
these
methods
synthetic
applications.
Chemical Reviews,
Journal Year:
2021,
Volume and Issue:
122(6), P. 5682 - 5841
Published: Oct. 18, 2021
Transition-metal-catalyzed
C–H
activation
has
developed
a
contemporary
approach
to
the
omnipresent
area
of
retrosynthetic
disconnection.
Scientific
researchers
have
been
tempted
take
help
this
methodology
plan
their
synthetic
discourses.
This
paradigm
shift
helped
in
development
industrial
units
as
well,
making
synthesis
natural
products
and
pharmaceutical
drugs
step-economical.
In
vast
zone
bond
activation,
functionalization
proximal
bonds
gained
utmost
popularity.
Unlike
bonds,
distal
is
more
strenuous
requires
distinctly
specialized
techniques.
review,
we
compiled
various
methods
adopted
functionalize
mechanistic
insights
within
each
these
procedures,
scope
methodology.
With
give
complete
overview
expeditious
progress
made
field
organic
chemistry
while
also
highlighting
its
pitfalls,
thus
leaving
open
for
further
modifications.
Chemical Reviews,
Journal Year:
2021,
Volume and Issue:
121(24), P. 14957 - 15074
Published: Oct. 29, 2021
Transition-metal-catalyzed,
coordination-assisted
C(sp3)–H
functionalization
has
revolutionized
synthetic
planning
over
the
past
few
decades
as
use
of
these
directing
groups
allowed
for
increased
access
to
many
strategic
positions
in
organic
molecules.
Nonetheless,
several
challenges
remain
preeminent,
such
requirement
high
temperatures,
difficulty
removing
or
converting
groups,
and,
although
metals
provide
some
reactivity,
employing
outside
palladium.
This
review
aims
give
a
comprehensive
overview
coordination-assisted,
transition-metal-catalyzed,
direct
nonactivated
bonds
by
covering
literature
since
2004
order
demonstrate
current
state-of-the-art
methods
well
limitations.
For
clarity,
this
been
divided
into
nine
sections
transition
metal
catalyst
with
subdivisions
type
bond
formation.
Synthetic
applications
and
reaction
mechanism
are
discussed
where
appropriate.
Angewandte Chemie International Edition,
Journal Year:
2020,
Volume and Issue:
60(29), P. 15767 - 15790
Published: Oct. 19, 2020
The
design
of
synthetic
routes
by
retrosynthetic
logic
is
decisively
influenced
the
transformations
available.
Transition-metal-catalyzed
C-H
activation
has
emerged
as
a
powerful
strategy
for
C-C
bond
formation,
with
myriad
methods
developed
diverse
substrates
and
coupling
partners.
However,
its
uptake
in
total
synthesis
been
tepid,
partially
due
to
their
apparent
intractability,
well
lack
comprehensive
guidelines
implementation.
This
Review
addresses
these
issues
offers
guide
identify
opportunities
generate
bonds
processes.
By
comparing
syntheses
accomplished
using
traditional
approaches
recent
methods,
this
demonstrates
how
enabled
construction
led
more
efficient
strategies,
execution
previously
unattainable
tactical
maneuvers.
Finally,
shortcomings
existing
processes
are
highlighted;
illustrates
some
highlighted
can
be
further
economized
adopting
next-generation
ligand-enabled
approaches.
Angewandte Chemie International Edition,
Journal Year:
2020,
Volume and Issue:
59(45), P. 19773 - 19786
Published: July 20, 2020
Abstract
Transition
metal‐catalyzed
enantioselective
functionalization
of
C−H
bond,
the
most
abundant
functionality
in
organic
molecules,
has
emerged
as
an
expedient
synthetic
approach
to
streamline
synthesis
complex
chiral
molecules.
Despite
significant
progress,
traditional
directing
group‐enabled
strategies
require
additional
steps
for
installation
and
removal
groups
from
target
molecule.
The
recently
developed
asymmetric
using
transient
(
c
TDGs)
offers
a
promising
alternative
that
can
circumvent
this
obstacle
therefore
simplify
process.
In
Minireview,
we
briefly
discuss
advent
recent
advances
emerging
concept,
with
emphasis
on
discussing
creation
various
stereogenic
centers
developments
TDGs.
Applications
natural
product
ligand
derivatizations
are
also
discussed.
We
hope
Minireview
will
highlight
great
potential
strategy
help
inspire
further
endeavors.
Chemistry - A European Journal,
Journal Year:
2020,
Volume and Issue:
26(33), P. 7346 - 7357
Published: Jan. 29, 2020
Transition-metal-catalyzed
C-H
functionalization
reactions
with
Cp*MIII
catalysts
(M=Co,
Rh,
Ir)
have
found
a
wide
variety
of
applications
in
organic
synthesis.
Albeit
the
intrinsic
difficulties
achieving
catalytic
stereocontrol
using
these
due
to
their
lack
additional
coordination
sites
for
external
chiral
ligands
and
conformational
flexibility
Cp
ligand,
enantioselective
Group
9
metal
triad
Cp-type
been
intensively
studied
since
2012.
In
this
minireview,
progress
according
type
catalyst
used
are
summarized
discussed.
The
development
Cpx
complexes
thereof,
artificial
metalloenzymes,
carboxylate-assisted
activations,
alkylations
assisted
by
carboxylic
acids
or
sulfonates,
transient
directing
groups
Chemical Reviews,
Journal Year:
2020,
Volume and Issue:
120(18), P. 10516 - 10543
Published: Sept. 8, 2020
The
development
of
catalytic
enantioselective
transformations,
enabling
the
construction
complex
molecular
scaffolds
from
simple
precursors,
has
been
a
long-standing
challenge
in
organic
synthesis.
Recent
achievements
transition-metal
catalyzed
functionalizations
carbon–hydrogen
(C–H)
bonds
represent
promising
pathway
toward
this
goal.
Over
last
two
decades,
iridium
catalysis
evolved
as
valuable
tool
stereocontrolled
synthesis
chiral
molecules
via
C–H
activation.
iridium-based
systems
with
various
ligand
classes,
well
studies
their
reaction
mechanisms,
resulted
dynamic
progress
area.
This
review
aims
to
present
comprehensive
picture
by
complexes
emphasis
on
mechanisms
activation
step.
Journal of the American Chemical Society,
Journal Year:
2019,
Volume and Issue:
141(14), P. 5675 - 5680
Published: March 22, 2019
The
synthesis
of
a
set
cobalt(III)-complexes
equipped
with
trisubstituted
chiral
cyclopentadienyl
ligands
is
reported,
and
their
steric
electronic
parameters
are
mapped.
application
potential
these
complexes
for
asymmetric
C-H
functionalizations
3d-metals
shown
by
the
dihydroisoquinolones
from
N-chlorobenzamides
broad
range
alkenes.
transformation
proceeds
excellent
enantioselectivities
up
to
99.5:0.5
er
high
regioselectivities.
observed
values
outperform
best
rhodium(III)-based
methods
this
reaction
type.
Moreover,
challenging
substrates
such
as
alkyl
alkenes
also
react
regio-
enantioselectivities.
