Nature Communications,
Journal Year:
2022,
Volume and Issue:
13(1)
Published: Feb. 28, 2022
Abstract
Biaryl
scaffolds
are
found
in
natural
products
and
drug
molecules
exhibit
a
wide
range
of
biological
activities.
In
past
decade,
the
transition
metal-catalyzed
C–H
arylation
reaction
came
out
as
an
effective
tool
for
construction
biaryl
motifs.
However,
traditional
reactions
have
limitations
like
harsh
conditions,
narrow
substrate
scope,
use
additives
etc.
therefore
encouraged
synthetic
chemists
to
look
alternate
greener
approaches.
This
review
aims
draw
general
overview
on
bond
formation
C–C
bonds
with
aid
different
methodologies,
majorly
highlighting
sustainable
Chemical Reviews,
Journal Year:
2018,
Volume and Issue:
119(4), P. 2192 - 2452
Published: Nov. 27, 2018
C–H
activation
has
surfaced
as
an
increasingly
powerful
tool
for
molecular
sciences,
with
notable
applications
to
material
crop
protection,
drug
discovery,
and
pharmaceutical
industries,
among
others.
Despite
major
advances,
the
vast
majority
of
these
functionalizations
required
precious
4d
or
5d
transition
metal
catalysts.
Given
cost-effective
sustainable
nature
earth-abundant
first
row
metals,
development
less
toxic,
inexpensive
3d
catalysts
gained
considerable
recent
momentum
a
significantly
more
environmentally-benign
economically-attractive
alternative.
Herein,
we
provide
comprehensive
overview
on
until
summer
2018.
Chemical Reviews,
Journal Year:
2021,
Volume and Issue:
122(2), P. 1485 - 1542
Published: Nov. 18, 2021
The
merger
of
photoredox
catalysis
with
transition
metal
catalysis,
termed
metallaphotoredox
has
become
a
mainstay
in
synthetic
methodology
over
the
past
decade.
Metallaphotoredox
combined
unparalleled
capacity
for
bond
formation
broad
utility
photoinduced
electron-
and
energy-transfer
processes.
Photocatalytic
substrate
activation
allowed
engagement
simple
starting
materials
metal-mediated
bond-forming
Moreover,
electron
or
energy
transfer
directly
key
organometallic
intermediates
provided
novel
modes
entirely
complementary
to
traditional
catalytic
platforms.
This
Review
details
contextualizes
advancements
molecule
construction
brought
forth
by
metallaphotocatalysis.
Angewandte Chemie International Edition,
Journal Year:
2019,
Volume and Issue:
59(1), P. 74 - 108
Published: May 22, 2019
Abstract
Radical–radical
couplings
are
mostly
nearly
diffusion‐controlled
processes.
Therefore,
the
selective
cross‐coupling
of
two
different
radicals
is
challenging
and
not
a
synthetically
valuable
transformation.
However,
if
have
lifetimes
they
generated
at
equal
rates,
will
become
dominant
process.
This
high
cross‐selectivity
based
on
kinetic
phenomenon
called
persistent
radical
effect
(PRE).
In
this
Review,
an
explanation
PRE
supported
by
simulations
simple
model
systems
provided.
Radical
stabilities
discussed
within
context
their
lifetimes,
various
examples
PRE‐mediated
radical–radical
in
synthesis
summarized.
It
shown
that
restricted
to
coupling
with
transient
radical.
If
one
partner
longer‐lived
than
other
radical,
operates
achieved.
important
point
expands
scope
chemistry.
The
Review
divided
into
parts,
namely
1)
or
organic
2)
“radical–metal
crossover
reactions”;
here,
metal‐centered
species
more
generally
transition‐metal
complexes
able
react
discussed—a
field
has
flourished
recently.
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.
Angewandte Chemie International Edition,
Journal Year:
2018,
Volume and Issue:
58(19), P. 6152 - 6163
Published: Oct. 6, 2018
The
union
of
photoredox
and
nickel
catalysis
has
resulted
in
a
renaissance
radical
chemistry
as
well
the
use
nickel-catalyzed
transformations,
specifically
for
carbon-carbon
bond
formation.
Collectively,
these
advances
address
longstanding
challenge
late-stage
cross-coupling
functionalized
alkyl
fragments.
Empowered
by
notion
that
photocatalytically
generated
radicals
readily
undergo
capture
Ni
complexes,
wholly
new
feedstocks
have
been
realized.
Herein,
we
highlight
recent
developments
several
types
cross-couplings
are
accessible
exclusively
through
this
approach.
Organic Process Research & Development,
Journal Year:
2019,
Volume and Issue:
23(6), P. 1213 - 1242
Published: May 7, 2019
High-throughput
experimentation
(HTE)
has
revolutionized
the
pharmaceutical
industry,
most
notably
allowing
for
rapid
screening
of
compound
libraries
against
therapeutic
targets.
The
past
decade
also
witnessed
extension
HTE
principles
toward
realm
small-molecule
process
chemistry.
Today,
major
companies
have
created
dedicated
groups
within
their
development
teams,
invested
in
automation
technology
to
accelerate
screening,
or
both.
industry's
commitment
accelerating
led
innovations
space.
This
review
will
deliver
an
overview
latest
best
practices
currently
taking
place
our
teams
chemistry
by
sharing
frequently
studied
transformations,
perspective
next
several
years
field,
and
manual
automated
tools
enable
experimentation.
A
series
case
studies
are
presented
exemplify
state-of-the-art
workflows
developed
laboratories.
Chemical Reviews,
Journal Year:
2021,
Volume and Issue:
122(2), P. 2487 - 2649
Published: Nov. 9, 2021
Redox
processes
are
at
the
heart
of
synthetic
methods
that
rely
on
either
electrochemistry
or
photoredox
catalysis,
but
how
do
and
catalysis
compare?
Both
approaches
provide
access
to
high
energy
intermediates
(e.g.,
radicals)
enable
bond
formations
not
constrained
by
rules
ionic
2
electron
(e)
mechanisms.
Instead,
they
1e
mechanisms
capable
bypassing
electronic
steric
limitations
protecting
group
requirements,
thus
enabling
chemists
disconnect
molecules
in
new
different
ways.
However,
while
providing
similar
intermediates,
differ
several
physical
chemistry
principles.
Understanding
those
differences
can
be
key
designing
transformations
forging
disconnections.
This
review
aims
highlight
these
similarities
between
comparing
their
underlying
principles
describing
impact
electrochemical
photochemical
methods.
Chemical Reviews,
Journal Year:
2023,
Volume and Issue:
123(8), P. 4237 - 4352
Published: Jan. 24, 2023
The
emergence
of
modern
photocatalysis,
characterized
by
mildness
and
selectivity,
has
significantly
spurred
innovative
late-stage
C–H
functionalization
approaches
that
make
use
low
energy
photons
as
a
controllable
source.
Compared
to
traditional
strategies,
photocatalysis
paves
the
way
toward
complementary
and/or
previously
unattainable
regio-
chemoselectivities.
Merging
compelling
benefits
with
workflow
offers
potentially
unmatched
arsenal
tackle
drug
development
campaigns
beyond.
This
Review
highlights
photocatalytic
strategies
small-molecule
drugs,
agrochemicals,
natural
products,
classified
according
targeted
bond
newly
formed
one.
Emphasis
is
devoted
identifying,
describing,
comparing
main
mechanistic
scenarios.
draws
critical
comparison
between
established
ionic
chemistry
photocatalyzed
radical-based
manifolds.
aims
establish
current
state-of-the-art
illustrate
key
unsolved
challenges
be
addressed
in
future.
authors
aim
introduce
general
readership
functionalization,
specialist
practitioners
evaluation
methodologies,
potential
for
improvement,
future
uncharted
directions.
