The Journal of Organic Chemistry,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Feb. 5, 2025
The
conversion
of
carbon
dioxide
(CO2)
into
valuable
chemicals
has
been
intensively
pursued
for
sustainable
chemistry.
It
is
highly
desirable
to
achieve
the
under
ambient
conditions
using
organocatalysts
instead
precious
or
pollutive
metal
catalysts.
Herein,
we
disclose
a
new
class
direct
C(sp)-H
carboxylation
with
CO2.
Amide
molecules
such
as
N-methylacetamide
and
valerolactam
behave
efficient
bifunctional
catalysts
promote
aromatic
alkynes
propiolic
acids.
In
particular,
simple
organic
enable
reaction
occur
at
room
temperature,
which
achieved
only
complex
transition
prior
this
report.
presence
optimal
base
Cs2CO3,
adjacent
nitrogen
oxygen
sites
amide
group
concurrently
activate
CO2
position
them
in
favor
C-C
coupling,
affording
high
catalytic
activity
on
par
those
work
sheds
light
chemistry
also
illustrates
great
potential
discovering
from
molecules.
Chemical Society Reviews,
Journal Year:
2022,
Volume and Issue:
51(22), P. 9371 - 9423
Published: Jan. 1, 2022
The
transformation
of
carbon
dioxide
(CO2)
into
useful
chemicals,
advanced
materials,
and
energy
is
a
long-standing
challenge
in
both
fundamental
science
industry.
In
recent
years,
utilization
CO2
the
presence
inexpensive
non-negligible
environmentally
friendly
3d
metal-based
catalysts
(Fe,
Mn,
Co,
Ni,
Cu
Ti)
has
become
one
most
attractive
topics.
Particular
attention
been
given
to
synthesis
carboxylic
acids
their
derivatives
since
these
molecules
serve
as
key
intermediates
chemical,
fertilizer,
pharmaceutical
sectors.
Considering
numerous
challenges
linked
with
reactivity,
number
research
groups
have
recently
focused
on
by
following
thermo-,
photo-,
electrochemical
strategies.
However,
facile
access
such
remains
vital
catalysis
organic
owing
high
stability
molecule
which
atom
highest
oxidation
state.
Another
hurdle
solve
selectivity
issue
caused
reaction
different
catalytic
systems
reactive
functional
group-containing
molecules.
Despite
all
issues,
wide
range
transition
applied
this
direction,
but
cheaper
price
inherent
metals
are
at
forefront
domain.
these,
we
aim
summarise
advances
(over
past
five
years)
3d-metal
complexes
reactivity
towards
activation
for
acids.
Furthermore,
discuss
current
trends,
knowledge
gaps,
invigorating
perspectives
future
advances.
Angewandte Chemie International Edition,
Journal Year:
2023,
Volume and Issue:
62(23)
Published: April 3, 2023
Carboxylation
of
easily
available
alkenes
with
CO2
is
highly
important
to
afford
value-added
carboxylic
acids.
Although
dicarboxylation
activated
alkenes,
especially
1,3-dienes,
has
been
widely
investigated,
the
challenging
unactivated
1,n-dienes
(n>3)
remains
unexplored.
Herein,
we
report
first
skipped
dienes
via
electrochemistry,
affording
valuable
dicarboxylic
Control
experiments
and
DFT
calculations
support
single
electron
transfer
(SET)
reduction
its
radical
anion,
which
followed
by
sluggish
addition
SET
unstabilized
alkyl
radicals
carbanions
nucleophilic
attack
on
give
desired
products.
This
reaction
features
mild
conditions,
broad
substrate
scope,
facile
derivations
products
promising
application
in
polymer
chemistry.
Journal of the American Chemical Society,
Journal Year:
2024,
Volume and Issue:
146(5), P. 2888 - 2894
Published: Jan. 26, 2024
Catalytic
asymmetric
carboxylation
of
readily
available
alkenes
with
CO2,
an
abundant
and
sustainable
one-carbon
building
block,
that
gives
access
to
value-added
α-stereogenic
carboxylic
acids
in
atom-
step-economic
manner
is
highly
attractive.
However,
it
has
remained
a
formidable
challenge
for
the
synthetic
community.
Here,
first
example
Cu-catalyzed
regio-
enantioselective
boracarboxylation
reaction
on
various
arylalkenes
diboron
under
atmospheric
pressure
CO2
described,
which
afforded
variety
chiral
β-boron-functionalized
α-aryl
up
87%
yield
97%
ee
mild
conditions.
Importantly,
α-substituted
could
also
be
subject
this
protocol
excellent
enantiopurities,
thereby
rendering
efficient
approach
generation
enantioenriched
α-chiral
all-carbon
quaternary
center.
Moreover,
high
functional
group
tolerance,
scalable
synthesis,
facile
bioactive
compounds,
like
(−)-scopolamine,
(−)-anisodamine,
(−)-tropicamide,
further
demonstrated
utility
strategy.
Journal of the American Chemical Society,
Journal Year:
2024,
Volume and Issue:
146(3), P. 1753 - 1759
Published: Jan. 9, 2024
Herein,
we
report
the
direct
carboxylation
of
unactivated
secondary
alkyl
bromides
enabled
by
merger
photoredox
and
nickel
catalysis,
a
previously
inaccessible
endeavor
in
arena.
Site-selectivity
is
dictated
kinetically
controlled
insertion
CO2
at
initial
C(sp3)–Br
site
rapid
formation
Ni(I)–alkyl
species,
thus
avoiding
undesired
β-hydride
elimination
chain-walking
processes.
Preliminary
mechanistic
experiments
reveal
subtleties
stereoelectronic
effects
for
guiding
reactivity
site-selectivity.
ACS Catalysis,
Journal Year:
2022,
Volume and Issue:
12(5), P. 2781 - 2787
Published: Feb. 11, 2022
Carboxylation
of
allylic
alcohols
with
carbon
dioxide
is
accomplished
by
photoredox/nickel
dual
catalysis,
generating
linear
acids
exclusively
good
Z/E
stereoselectivity.
Hantzsch
ester
employed
as
the
reductant
instead
stoichiometric
metallic
reductants,
and
reaction
can
be
conducted
under
room
temperature
a
blue
LED
light
source.
Mechanistic
studies
reveal
that
presence
water
in
this
catalytic
system
critical
to
success
reaction,
more
likely
proceed
oxidative
addition
situ
formed
hydrogen
carbonate.
Angewandte Chemie International Edition,
Journal Year:
2023,
Volume and Issue:
62(30)
Published: May 18, 2023
The
rapid
preparation
of
complex
three-dimensional
(3D)
heterocyclic
scaffolds
is
a
key
challenge
in
modern
medicinal
chemistry.
Despite
the
increased
probability
clinical
success
for
small
molecule
therapeutic
candidates
with
3D
complexity,
new
drug
targets
remain
dominated
by
flat
molecules
due
to
abundance
coupling
reactions
available
their
construction.
In
principle,
heteroarene
hydrofunctionalization
offer
an
opportunity
transform
readily
accessible
planar
into
more
three-dimensionally
analogs
through
introduction
single
molecular
vector.
Unfortunately,
dearomative
limited.
Herein,
we
report
strategy
enable
hydrocarboxylation
indoles
and
related
heterocycles.
This
reaction
represents
rare
example
that
meets
numerous
requirements
broad
implementation
discovery.
transformation
highly
chemoselective,
scope,
operationally
simple,
amenable
high-throughput
experimentation
(HTE).
Accordingly,
this
process
will
allow
existing
libraries
heteroaromatic
compounds
be
translated
diverse
exploration
classes
medicinally
relevant
molecules.
Molecules,
Journal Year:
2023,
Volume and Issue:
28(16), P. 6127 - 6127
Published: Aug. 18, 2023
The
functionalisation
of
C–H
bonds
has
been
an
enormous
achievement
in
synthetic
methodology,
enabling
new
retrosynthetic
disconnections
and
affording
simple
equivalents
for
synthons.
Hydrogen
atom
transfer
(HAT)
is
a
key
method
forming
alkyl
radicals
from
substrates.
Classic
reactions,
including
the
Barton
nitrite
ester
reaction
Hofmann–Löffler–Freytag
reaction,
among
others,
provided
early
examples
HAT.
However,
recent
developments
photoredox
catalysis
electrochemistry
have
made
HAT
powerful
tool
capable
introducing
wide
range
functional
groups
into
bonds.
Moreover,
greater
mechanistic
insights
stimulated
development
increasingly
site-selective
protocols.
Site-selectivity
can
be
achieved
through
tuning
electron
density
at
certain
using
additives,
judicious
choice
reagent,
solvent
system.
Herein,
we
describe
latest
methods
functionalizing
C–H/Si–H/Ge–H
indirect
between
2018–2023,
as
well
critical
discussion
reagents,
aspects,
substrate
scopes,
background
contexts
Nature Communications,
Journal Year:
2023,
Volume and Issue:
14(1)
Published: Nov. 22, 2023
Abstract
Direct
utilization
of
CO
2
into
organic
synthesis
finds
enormous
applications
to
synthesize
pharmaceuticals
and
fine
chemicals.
However,
pure
gas
is
essential
achieve
these
transformations,
the
purification
highly
cost
energy
intensive.
Considering
this,
we
describe
a
straightforward
synthetic
route
for
γ-lactams,
pivotal
core
structure
bioactive
molecules,
by
using
commercially
available
starting
materials
(alkenes
amines)
impure
stream
(exhaust
collected
from
car)
as
carbon
source.
This
blueprint
features
broad
scope,
excellent
functional
group
compatibility
application
late-stage
transformation
existing
natural
products
functionalized
γ-lactams.
We
believe
that
our
strategy
will
provide
direct
access
γ-lactams
in
very
sustainable
way
also
enhance
Carbon
Capture
Utilization
(CCU)
strategy.
Angewandte Chemie International Edition,
Journal Year:
2024,
Volume and Issue:
63(22)
Published: March 26, 2024
Abstract
Upgrading
CO
2
to
value‐added
chiral
molecules
via
catalytic
asymmetric
C−C
bond
formation
is
a
highly
important
yet
challenging
task.
Although
great
progress
on
the
of
centrally
carboxylic
acids
has
been
achieved,
construction
axially
with
never
reported
date.
Herein,
we
report
first
synthesis
,
which
enabled
by
nickel‐catalyzed
dynamic
kinetic
reductive
carboxylation
racemic
aza‐biaryl
triflates.
A
variety
acids,
are
valuable
but
difficult
obtain
catalysis,
generated
in
an
enantioconvergent
version.
This
new
methodology
features
good
functional
group
tolerance,
easy
scale‐up,
facile
transformation
and
avoids
cumbersome
steps,
handling
organometallic
reagents
using
stoichiometric
materials.
Mechanistic
investigations
indicate
process
induced
nickel
catalysis.
Chemical Science,
Journal Year:
2024,
Volume and Issue:
15(16), P. 6178 - 6183
Published: Jan. 1, 2024
Low-cost
formate
salt
was
used
as
the
reductant
and
part
of
carboxyl
source
in
a
visible-light-driven
dicarboxylation
diverse
alkenes,
including
simple
styrenes.
The
highly
competing
hydrocarboxylation
side
reaction
successfully
overridden.
Good
yields
products
were
obtained
under
mild
conditions
at
ambient
temperature
pressure
CO
