Chemical Society Reviews,
Год журнала:
2024,
Номер
53(14), С. 7309 - 7327
Опубликована: Янв. 1, 2024
Oxidative
degradation
is
a
powerful
method
to
degrade
plastics
into
oligomers
and
small
oxidized
products.
While
thermal
energy
has
been
conventionally
employed
as
an
external
stimulus,
recent
advances
in
photochemistry
have
enabled
photocatalytic
oxidative
of
polymers
under
mild
conditions.
This
tutorial
review
presents
overview
degradation,
from
its
earliest
examples
emerging
strategies.
briefly
discusses
the
motivation
development
with
focus
on
underlying
mechanisms.
Then,
we
will
examine
modern
studies
primarily
relevant
catalytic
degradation.
Lastly,
highlight
some
unique
using
unconventional
approaches
for
polymer
such
electrochemistry.
Abstract
Despite
the
rich
photochemistry
of
3d‐metal
complexes,
utilization
excited‐state
reactivity
these
compounds
in
organic
synthesis
has
been
historically
overlooked.
The
advent
photoredox
catalysis
changed
perception
synthetic
chemists
towards
photochemistry,
and
nowadays
potential
photoinduced,
outer‐sphere
single‐electron
transfer
events
is
widely
recognized.
More
recently,
an
emerging
new
mode
photoactivation
taken
spotlight,
based
on
inner‐sphere
triggered
by
population
ligand‐to‐metal
charge‐transfer
(LMCT)
excited
states.
Contrarily
to
photoredox,
LMCT‐activation
does
not
rely
matching
redox
potentials,
offers
unique
profiles
particularly
well
suited
Earth‐abundant
metal
complexes.
Those
appealing
features
are
propelling
development
methods
using
this
blueprint
generate
highly
reactive
open‐shell
species
under
mild
conditions.
aim
contribution
provide
a
didactical
tool
for
comprehension
concept
facilitate
methodologies
achieve
sustainable
chemical
transformations.
Nature Communications,
Год журнала:
2022,
Номер
13(1)
Опубликована: Авг. 16, 2022
The
continuous
increase
in
manufacturing
coupled
with
the
difficulty
of
recycling
plastic
products
has
generated
huge
amounts
waste
plastics.
Most
existing
chemical
and
upcycling
methods
suffer
from
harsh
conditions
poor
product
selectivity.
Here
we
demonstrate
a
photocatalytic
method
to
oxidize
polystyrene
aromatic
oxygenates
under
visible
light
irradiation
using
heterogeneous
graphitic
carbon
nitride
catalysts.
Benzoic
acid,
acetophenone,
benzaldehyde
are
dominant
liquid
phase
when
conversion
reaches
>90%
at
150
°C.
For
transformation
0.5
g
waste,
0.36
is
obtained.
reaction
mechanism
also
investigated
various
characterization
procedes
via
activation
form
hydroxyl
carbonyl
groups
over
its
backbone
C-H
bond
oxidation
which
followed
by
oxidative
breakage
C-C
further
processes
oxygenates.
Microorganisms,
Год журнала:
2023,
Номер
11(7), С. 1661 - 1661
Опубликована: Июнь 26, 2023
Plastic
and
microplastic
pollution
has
caused
a
great
deal
of
ecological
problems
because
its
persistence
potential
adverse
effects
on
human
health.
The
degradation
plastics
through
biological
processes
is
significance
for
health,
therefore,
the
feasibility
plastic
by
microorganisms
attracted
lot
attention.
This
study
comprises
preliminary
discussion
biodegradation
mechanism
advantages
roles
different
bacterial
enzymes,
such
as
PET
hydrolase
PCL-cutinase,
in
polymers,
PCL,
respectively.
With
particular
focus
their
modes
action
enzymatic
mechanisms,
this
review
sums
up
studies
microplastics
related
to
mechanisms
influencing
factors,
along
with
enzymes
enhancing
synthetic
process.
In
addition,
also
affected
additives
plasticizers.
Plasticizers
composition
can
cause
harmful
impacts.
To
further
improve
efficiency
various
pretreatments
biodegradation,
which
significant
reduction
toxic
pollution,
were
preliminarily
discussed
here.
existing
research
data
show
large
number
involved
though
specific
have
not
been
thoroughly
explored
yet.
Therefore,
there
employing
strains
efficient
health
safety.
ACS Catalysis,
Год журнала:
2022,
Номер
12(14), С. 8155 - 8163
Опубликована: Июнь 23, 2022
Chemical
recycling
of
synthetic
polymers
represents
a
promising
strategy
to
deconstruct
plastic
waste
and
make
valuable
products.
Inspired
by
small-molecule
C-H
bond
activation,
visible-light-driven
reaction
is
developed
polystyrene
(PS)
into
∼40%
benzoic
acid
as
well
∼20%
other
monomeric
aromatic
products
at
50
°C
ambient
pressure.
The
practicality
this
demonstrated
deconstruction
real-world
PS
foam
on
gram
scale.
proposed
proceed
via
oxidation
pathway,
which
supported
theoretical
calculations
experimental
results.
Fluorescence
quenching
experiments
also
support
efficient
electron
transfer
between
the
photocatalyst
polymer
substrate,
providing
further
evidence
for
mechanism.
This
study
introduces
concepts
from
catalysis
provides
method
tackle
global
crisis
pollution.
ACS Catalysis,
Год журнала:
2022,
Номер
12(15), С. 9307 - 9324
Опубликована: Июль 18, 2022
Plastic
waste
triggers
a
series
of
concerns
because
its
disruptive
impact
on
the
environment
and
ecosystem.
From
point
view
catalysis,
however,
end-of-life
plastics
can
be
seen
as
an
untapped
feedstock
for
preparation
value-added
products.
Thus,
development
diversified
catalytic
approaches
valorization
is
urgent.
Previous
reviews
this
field
have
systematically
summarized
progress
made
plastic
reclamation.
In
review,
we
emphasize
design
processes
by
leveraging
state-of-the-art
technologies
from
other
developed
fields
to
derive
valuable
polymers,
functional
materials,
chemicals
plastics.
The
principles,
mechanisms,
opportunities
chemical
(thermo-,
electro-,
photocatalytic)
well
biocatalytic
ones
are
discussed,
which
may
provide
more
insights
future
processes.
Finally,
outlooks
perspectives
accelerate
toward
feasible
economy
discussed.
Journal of the American Chemical Society,
Год журнала:
2023,
Номер
145(18), С. 9898 - 9915
Опубликована: Май 1, 2023
Controlled
polymerization
methods
are
well-established
synthetic
protocols
for
the
design
and
preparation
of
polymeric
materials
with
a
high
degree
precision
over
molar
mass
architecture.
Exciting
recent
work
has
shown
that
end-group
fidelity
and/or
functionality
inherent
in
these
techniques
can
enable
new
routes
to
depolymerization
under
relatively
mild
conditions.
Converting
polymers
back
pure
monomers
by
is
potential
solution
environmental
ecological
concerns
associated
ultimate
fate
polymers.
This
perspective
focuses
on
emerging
field
from
synthesized
controlled
polymerizations
including
radical,
ionic,
metathesis
polymerizations.
We
provide
critical
review
current
literature
categorized
according
technique
explore
numerous
concepts
ideas
which
could
be
implemented
further
enhance
lower
temperature
systems,
catalytic
depolymerization,
increasing
polymer
scope,
depolymerization.
Journal of the American Chemical Society,
Год журнала:
2022,
Номер
145(1), С. 359 - 376
Опубликована: Дек. 20, 2022
The
intermediacy
of
alkoxy
radicals
in
cerium-catalyzed
C–H
functionalization
via
H-atom
abstraction
has
been
unambiguously
confirmed.
Catalytically
relevant
Ce(IV)–alkoxide
complexes
have
synthesized
and
characterized
by
X-ray
diffraction.
Operando
electron
paramagnetic
resonance
transient
absorption
spectroscopy
experiments
on
isolated
pentachloro
Ce(IV)
alkoxides
identified
as
the
sole
heteroatom-centered
radical
species
generated
ligand-to-metal
charge
transfer
(LMCT)
excitation.
Alkoxy-radical-mediated
hydrogen
atom
(HAT)
verified
kinetic
analysis,
density
functional
theory
(DFT)
calculations,
reactions
under
strictly
chloride-free
conditions.
These
experimental
findings
establish
critical
role
Ce-LMCT
catalysis
definitively
preclude
involvement
chlorine
radical.
This
study
also
reinforced
necessity
a
high
relative
ratio
alcohol
vs
Ce
for
selective
alkoxy-radical-mediated
HAT,
seemingly
trivial
changes
can
lead
to
drastically
different
mechanistic
pathways.
Importantly,
previously
proposed
radical–alcohol
complex,
postulated
explain
alkoxy-radical-enabled
selectivities
this
system,
examined
scrutiny
ruled
out
regioselectivity
studies,
experiments,
high-level
calculations.
Moreover,
peculiar
selectivity
generation
LMCT
homolysis
heteroleptic
analyzed
back-electron
(BET)
may
regulated
efficiency
formation
ligand-centered
radicals.
