Chemical Society Reviews,
Год журнала:
2020,
Номер
50(3), С. 2147 - 2172
Опубликована: Дек. 17, 2020
Photocatalysis
with
stable,
efficient
and
inexpensive
metal-free
catalysts
is
one
of
the
most
promising
options
for
non-polluting
energy
production.
This
review
article
covers
state-of-the-art
development
various
effective
polymeric
photocatalysts
large
π-conjugated
units
chemical
transformations
including
water
splitting,
CO2
N2
reduction,
organic
synthesis
monomer
polymerisation.
The
starts
catalytic
mechanisms
photocatalysts.
Then
a
particular
focus
on
rational
manipulation
π-conjugation
enlargement,
charge
separation,
electronic
structures
band
in
design
Following
principles,
selection
construction
functional
are
discussed,
as
well
connecting
bonds
dimensions
Finally
hot
emerging
applications
photocatalytic
summarized.
strategies
provide
potential
avenues
to
address
challenges
catalyst
activity,
selectivity
stability
further
highly
Journal of the American Chemical Society,
Год журнала:
2017,
Номер
139(39), С. 13616 - 13619
Опубликована: Сен. 14, 2017
Disclosed
is
a
mild,
scalable,
visible-light-promoted
cross-coupling
reaction
between
thiols
and
aryl
halides
for
the
construction
of
C–S
bonds
in
absence
both
transition
metal
photoredox
catalysts.
The
scope
thiol
partners
includes
over
60
examples
therefore
provides
an
entry
point
into
various
thioether
building
blocks
pharmaceutical
interest.
Furthermore,
to
demonstrate
its
utility,
this
coupling
protocol
was
applied
drug
synthesis
late-stage
modifications
active
ingredients.
UV–vis
spectroscopy
time-dependent
density
functional
theory
calculations
suggest
that
intermolecular
charge
transfer
within
thiolate–aryl
halide
electron
donor–acceptor
complex
permits
reactivity
catalyst.
Chemical Society Reviews,
Год журнала:
2018,
Номер
47(14), С. 5457 - 5490
Опубликована: Янв. 1, 2018
ATRP
can
be
externally
controlled
by
electrical
current,
light,
mechanical
forces
and
various
chemical
reducing
agents.
The
mechanistic
aspects
preparation
of
polymers
with
complex
functional
architectures
their
applications
are
critically
reviewed.
Chemical Reviews,
Год журнала:
2021,
Номер
122(2), С. 2487 - 2649
Опубликована: Ноя. 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.
Macromolecular Rapid Communications,
Год журнала:
2018,
Номер
40(1)
Опубликована: Окт. 30, 2018
Approaching
25
years
since
its
invention,
atom
transfer
radical
polymerization
(ATRP)
is
established
as
a
powerful
technique
to
prepare
precisely
defined
polymeric
materials.
This
perspective
focuses
on
the
relation
between
structure
and
activity
of
ATRP
catalysts,
consequent
choice
initiating
system,
which
are
paramount
aspects
well-controlled
polymerizations.
The
mechanism
discussed,
including
effect
kinetic
thermodynamic
parameters
side
reactions
affecting
catalyst.
coordination
chemistry
copper
complexes
used
in
reviewed
chronological
order,
while
emphasizing
structure-activity
correlation.
ATRP-initiating
systems
described,
from
normal
low
ppm
Cu
systems.
Most
recent
advancements
regarding
dispersed
media
oxygen-tolerant
techniques
presented,
well
future
opportunities
that
arise
progressively
more
active
catalysts
deeper
mechanistic
understanding.
Journal of the American Chemical Society,
Год журнала:
2018,
Номер
140(31), С. 10016 - 10024
Опубликована: Июль 14, 2018
Highly
conjugated
three-dimensional
covalent
organic
frameworks
(3D
COFs)
were
constructed
based
on
spirobifluorene
cores
linked
via
imine
bonds
(SP-3D-COFs)
with
novel
interlacing
conjugation
systems.
The
crystalline
structures
confirmed
by
powder
X-ray
diffraction
and
detailed
structural
simulation.
A
6-
or
7-fold
interpenetration
was
formed
depending
the
structure
of
linking
units.
obtained
SP-3D-COFs
showed
permanent
porosity
high
thermal
stability.
In
application
for
solar
cells,
simple
bulk
doping
to
perovskite
cells
(PSCs)
substantially
improved
average
power
conversion
efficiency
15.9%
SP-3D-COF
1
18.0%
2
as
compared
reference
undoped
PSC,
while
offering
excellent
leakage
prevention
in
meantime.
By
aid
both
experimental
computational
studies,
a
possible
photoresponsive
perovskite–SP-3D-COFs
interaction
mechanism
proposed
explain
improvement
PSC
performance
after
doping.
Chemical Reviews,
Год журнала:
2021,
Номер
122(2), С. 1830 - 1874
Опубликована: Ноя. 29, 2021
The
development
of
photoinduced
organocatalyzed
atom
transfer
radical
polymerization
(O-ATRP)
has
received
considerable
attention
since
its
introduction
in
2014.
Expanding
on
many
the
advantages
traditional
ATRP,
O-ATRP
allows
well-defined
polymers
to
be
produced
under
mild
reaction
conditions
using
organic
photoredox
catalysts.
As
a
result,
opened
access
range
sensitive
applications
where
use
metal
catalyst
could
concern,
such
as
electronics,
certain
biological
applications,
and
coordinating
monomers.
However,
key
limitations
this
method
remain
necessitate
further
investigation
continue
field.
such,
review
details
achievements
made
to-date
well
future
research
directions
that
will
expand
capabilities
application
landscape
O-ATRP.
Journal of the American Chemical Society,
Год журнала:
2018,
Номер
140(15), С. 5088 - 5101
Опубликована: Март 7, 2018
Through
the
study
of
structure–property
relationships
using
a
combination
experimental
and
computational
analyses,
number
phenoxazine
derivatives
have
been
developed
as
visible
light
absorbing,
organic
photoredox
catalysts
(PCs)
with
excited
state
reduction
potentials
rivaling
those
highly
reducing
transition
metal
PCs.
Time-dependent
density
functional
theory
(TD-DFT)
modeling
photoexcitation
N-aryl
core
modified
phenoxazines
guided
design
PCs
absorption
profiles
in
regime.
In
accordance
our
previous
work
N,N-diaryl
dihydrophenazines,
characterization
noncore
demonstrated
that
nature
substituent
dictates
ability
PC
to
access
charge
transfer
state.
However,
current
analysis
revealed
these
molecules
can
different
type
CT
which
we
posit
involves
electron
acceptor.
Modification
electron-donating
electron-withdrawing
substituents
was
used
alter
triplet
energies,
potentials,
oxidation
derivatives.
The
catalytic
activity
explored
organocatalyzed
atom
radical
polymerization
(O-ATRP)
for
synthesis
poly(methyl
methacrylate)
(PMMA)
white
irradiation.
All
were
determined
be
suitable
O-ATRP
indicated
by
linear
growth
polymer
molecular
weight
function
monomer
conversion
synthesize
PMMA
moderate
low
dispersity
(dispersity
less
than
or
equal
1.5)
initiator
efficiencies
typically
greater
70%
at
high
conversions.
only
exhibit
strong
maintain
control
over
during
entire
course
reaction.
established
here
will
enable
application
other
photoredox-catalyzed
small
molecule
syntheses.
Journal of the American Chemical Society,
Год журнала:
2019,
Номер
141(33), С. 13203 - 13211
Опубликована: Авг. 1, 2019
Fluorinated
organic
molecules
are
pervasive
within
the
pharmaceutical
and
agrochemical
industries
due
to
range
of
structural
physicochemical
properties
that
fluorine
imparts.
Currently,
most
abundant
methods
for
synthesis
aryl–CF2
functionality
have
relied
on
deoxyfluorination
ketones
aldehydes
using
expensive
poorly
atom
economical
reagents.
Here,
we
report
a
general
method
aryl–CF2R
aryl–CF2H
compounds
through
activation
corresponding
trifluoromethyl
arene
precursors.
This
strategy
is
enabled
by
an
endergonic
electron
transfer
event
provides
access
radical
anions
lie
outside
catalyst
reduction
potential.
Fragmentation
these
reactive
intermediates
delivers
difluorobenzylic
radicals
can
be
intercepted
alkene
feedstocks
or
hydrogen
provide
diverse
array
difluoalkylaromatics.
Journal of the American Chemical Society,
Год журнала:
2016,
Номер
139(1), С. 348 - 355
Опубликована: Дек. 14, 2016
Photoexcited
intramolecular
charge
transfer
(CT)
states
in
N,N-diaryl
dihydrophenazine
photoredox
catalysts
are
accessed
through
catalyst
design
and
investigated
combined
experimental
studies
density
functional
theory
(DFT)
calculations.
These
CT
reminiscent
of
the
metal
to
ligand
(MLCT)
ruthenium
iridium
polypyridyl
complexes.
For
cases
where
polar
state
is
lowest
energy
excited
state,
we
observe
its
population
significant
solvatochromic
shifts
emission
wavelength
across
visible
spectrum
by
varying
solvent
polarity.
We
propose
importance
accessing
for
catalysis
atom
radical
polymerization
lies
their
ability
minimize
fluorescence
while
enhancing
electron
rates
between
photoexcited
substrate.
Additionally,
polarity
influences
deactivation
pathway,
greatly
affecting
strength
ion
pairing
oxidized
photocatalyst
bromide
anion
thus
realize
a
controlled
polymerization.
Greater
understanding
these
with
respect
enables
application
toward
methyl
methacrylate
synthesis
polymers
precisely
tunable
molecular
weights
dispersities
typically
lower
than
1.10.
Chemistry - A European Journal,
Год журнала:
2017,
Номер
23(46), С. 10962 - 10968
Опубликована: Июнь 27, 2017
Abstract
Photoredox
catalysis
is
a
versatile
approach
for
the
construction
of
challenging
covalent
bonds
under
mild
reaction
conditions,
commonly
using
photoredox
catalysts
(PCs)
derived
from
precious
metals.
As
such,
there
need
to
develop
organic
analogues
as
sustainable
replacements.
Although
several
PCs
have
been
introduced,
remains
lack
strongly
reducing,
visible‐light
PCs.
Herein,
we
establish
critical
photophysical
and
electrochemical
characteristics
both
dihydrophenazine
phenoxazine
system
that
enables
their
success
trifluoromethylation
reactions
dual
photoredox/nickel‐catalyzed
C−N
C−S
cross‐coupling
reactions,
which
historically
exclusive
metal
