Catalysts,
Journal Year:
2022,
Volume and Issue:
12(9), P. 936 - 936
Published: Aug. 24, 2022
Polyolefins
are
the
most
consumed
polymeric
materials
extensively
used
in
our
daily
life
and
usually
generated
by
coordination
polymerization
polyolefin
industry.
Olefin
catalysts
containing
transition
metal–organic
compound
combinations
undoubtedly
crucial
for
development
of
The
nitrogen
donor
atom
has
attracted
considerable
interest
is
widely
combination
with
metal
fine-tuning
chemical
environment
around
center.
In
addition
to
reported
olefin
imine
amide
donors
(sp2
hybrid
N),
late
chelating
amine
(sp3
N)
have
never
been
reviewed.
this
review
paper,
we
focus
on
(Ni,
Pd,
Fe,
Co)
amines
polymerization.
A
variety
bearing
different
neutral
surveyed
polymerization,
including
amine–imine,
amine–pyridine,
α-diamine,
[N,
N,
N]
tridentate
ligands
donors.
relationship
between
catalyst
structure
catalytic
performance
also
encompassed.
This
aims
promote
design
unique
high-performance
materials.
The Canadian Journal of Chemical Engineering,
Journal Year:
2023,
Volume and Issue:
101(9), P. 4886 - 4906
Published: Jan. 4, 2023
Abstract
Polyolefin
thermoplastic
elastomers
(TPE‐Os)
are
high‐performance
polyolefins
consisting
of
both
plastic
and
rubber
phases.
Compared
with
other
elastomers,
the
TPE‐Os
possess
better
chemical
stability,
transparency,
re‐processability,
electrical
insulation,
which
renders
their
broad
applications
possible.
By
manipulating
chain
structures
topologies
TPE‐Os,
differently
structured
improved
thermal
mechanical
properties
have
been
developed,
including
ethylene
α‐olefin
random
copolymers
(POEs),
olefin
block
(OBCs),
comb‐shaped
polyolefin
(CPOEs),
dynamically
cross‐linked
elastomers.
Herein,
we
review
synthesis
POE,
OBC,
CPOE,
dynamical
elastomer,
catalyst
systems,
polymerization
techniques,
processes,
kinetic
modelling.
The
characterization
relationships
between
TPE‐O
structure,
aggregated
state,
product
performance
discussed.
future
development
higher‐performance
is
envisaged.
Journal of the American Chemical Society,
Journal Year:
2023,
Volume and Issue:
145(39), P. 21527 - 21537
Published: Sept. 21, 2023
Polyethylene
is
a
commodity
material
that
widely
used
because
of
its
low
cost
and
valuable
properties.
However,
the
lack
functional
groups
in
polyethylene
limits
use
applications
include
adhesives,
gas
barriers,
plastic
blends.
The
inertness
makes
it
difficult
to
install
would
enhance
properties
enable
programmed
chemical
decomposition.
To
overcome
these
deficiencies,
installation
pendent
imbue
with
enhanced
an
attractive
strategy
inherent
limitations.
Here,
we
describe
strategies
derivatize
oxidized
contains
both
ketones
alcohols
monofunctional
variants
bulk
superior
those
unmodified
polyethylene.
Iridium-catalyzed
transfer
dehydrogenation
acetone
furnished
polyethylenes
only
ketones,
ruthenium-catalyzed
hydrogenation
hydrogen
alcohols.
We
demonstrate
ratio
can
be
controlled
by
reduction
stoichiometric
hydride-containing
reagents.
serve
as
sites
introduce
esters
oximes
onto
polymer,
thereby
improving
surface
over
These
were
removed
hydrolysis
regenerate
original
oxygenated
polyethylenes,
showing
how
functionalization
lead
materials
circularity.
Waste
equally
amenable
oxidative
derivatization
material,
this
low-
or
negative-value
feedstock
prepare
higher
value.
Finally,
derivatized
polymers
distinct
solubilities
separated
from
mechanically
mixed
blends
selective
dissolution,
demonstrating
novel
approaches
for
distinguishing
separating
mixture.
Science,
Journal Year:
2023,
Volume and Issue:
381(6665), P. 1433 - 1440
Published: Sept. 28, 2023
Functional
polyethylenes
possess
valuable
bulk
and
surface
properties,
but
the
limits
of
current
synthetic
methods
narrow
range
accessible
materials
prevent
many
envisioned
applications.
Instead,
these
are
often
used
in
composite
films
that
challenging
to
recycle.
We
report
a
Cu-catalyzed
amination
form
mono-
bifunctional
containing
series
polar
groups
substituents.
Designed
catalysts
with
hydrophobic
moieties
enable
linear
branched
without
chain
scission
or
cross-linking,
leading
otherwise
inaccessible
combinations
functional
architectures.
The
resulting
tunable
including
toughness,
adhesion
metal,
paintability,
water
solubility,
which
could
unlock
applications
for
reduce
need
complex
composites.
Accounts of Materials Research,
Journal Year:
2023,
Volume and Issue:
4(6), P. 496 - 506
Published: May 20, 2023
ConspectusPolyolefin
is
one
of
the
most
common
synthetic
polymers.
However,
polyolefins
are
nonpolar
materials,
which
leads
to
poor
compatibility
with
polar
thus
limiting
their
application
in
some
fields.
Polar
functionalized
can
lead
significantly
improved
dyeability,
adhesiveness
and
fillers,
realize
customized
properties
polyolefin
materials.
Transition-metal-catalyzed
coordination
copolymerization
olefin
comonomers
represents
a
direct
potentially
economic
route
synthesize
polar-functionalized
has
attracted
great
attention
recent
decades.
Literally
hundreds
nickel
palladium
catalysts
have
been
synthesized
investigated
olefin-polar
monomer
achieve
high
efficiency
by
tuning
molecular
structures
catalysts.
In
particular,
earth-abundant
low-cost
nickel-based
hold
potential
for
industrial
applications.
research
efforts
focus
on
homogeneous
catalysts,
while
industrially
preferred
heterogeneous
systems
remained
largely
unexplored.
With
objective
bridging
this
gap,
our
group
recently
developed
series
heterogenization
strategies
synthesis
high-performance
taking
advantage
hydrogen
bond
anchoring,
ionic
coanchoring,
cocatalyst,
cluster
formation.
These
involve
known
or
easily
accessible
be
adapted
various
catalytic
systems,
simultaneous
enhancement
all
parameters
such
as
thermal
stability,
activity,
comonomer
incorporation
ratio,
copolymer
weight
versus
counterparts.
addition,
performance
tuned
changing
type
support,
thereby
facilitating
discovery
Most
importantly,
product
morphology
control
achieved.
This
desirable
polymerization
processes
because
it
avoids
reactor
fouling
results
significant
improvements
safety
operational
processes.
Finally,
these
give
access
materials
(polar-functionalized
polyolefins,
in-reactor
blends
polyolefin-based
functional
composites)
custom-made
properties.
Compared
melt
blending,
composites
obtained
situ
better
material
By
using
prepared
situ.
applications
many
fields,
electrical
conductivity,
photodegradation,
flame
retardancy,
barrier,
etc.
It
expected
that
continuous
mechanism/catalysts,
heterogenizatioin
will
eventually
commercialization
nickel-catalyzed
production
composites.
Angewandte Chemie International Edition,
Journal Year:
2023,
Volume and Issue:
62(18)
Published: March 3, 2023
In
situ
heterogeneous
olefin
polymerization
has
attracted
much
attention
for
the
synthesis
of
polyolefin
composites.
However,
complicated
syntheses
specially
designed
catalysts
or
detrimental
effects
interactions
between
catalyst
and
solid
supports
pose
great
challenges.
this
contribution,
an
outer-shell
self-supporting
strategy
was
to
heterogenize
nickel
on
different
fillers
via
precipitation
homopolymerization
ionic
cluster
type
polar
monomer.
These
demonstrated
high
activity,
good
product
morphology
control,
stable
performances
in
ethylene
copolymerization.
Moreover,
various
composites
with
mechanical
customized
properties
can
be
efficiently
synthesized.
Advanced Science,
Journal Year:
2024,
Volume and Issue:
11(11)
Published: Jan. 6, 2024
Abstract
Stimuli‐responsive
polymers
have
found
applications
as
shape‐memory
materials,
optical
switches,
and
sensors,
but
the
installation
of
these
responsive
properties
in
non‐polar
inert
polyolefins
is
challenging.
In
this
contribution,
a
series
spiropyran
(SP)‐based
comonomers
are
synthesized
copolymerized
with
ethylene
or
ethylene/cyclic
monomers.
addition
to
great
mechanical
surface
properties,
functionalized
responded
light,
heat,
force,
which
induced
changes
polymer
structure
transmit
color
signals.
These
interesting
also
installed
commercial
polyolefin
materials
through
reactive
extrusion,
making
scalable
production
possible.
Journal of the American Chemical Society,
Journal Year:
2024,
Volume and Issue:
146(10), P. 6837 - 6845
Published: March 1, 2024
The
efficient
synthesis
of
polar-functionalized
polypropylenes
with
high
molecular
weight
and
stereoregularity
represents
a
challenging
task.
This
challenge
becomes
even
more
daunting
when
pursuing
an
industrially
preferred
heterogeneous
process.
study
demonstrated
the
realization
these
goals
through
use
commercial
Ziegler–Natta
catalysts
in
copolymerization
propylene
ionic
cluster
polar
monomers.
results
revealed
activity
(∼1.1
×
107
g
mol–1
h–1),
moderate
monomer
incorporation
ratios
(∼4.9
mol
%),
copolymer
(Mw
>
105
mol–1),
([mmmm]
∼
96%),
melting
temperature
range
(150–162
°C).
utilization
monomers
improved
thermal
stability
as
well
stereoselectivity
catalyst.
Moreover,
catalyst
can
homopolymerize
activities
(>104
h–1).
resulting
isotactic
(iPP)
exhibited
superior
tensile
strength,
impact
creep
resistance,
transparency,
crystallinity
compared
nonpolar
iPP.
enhancement
was
attributable
to
dual
roles
unit,
serving
both
transparent
nucleating
agent
dynamic
cross-linking
functionality.
Furthermore,
iPP
compatibility
materials,
offering
benefits
for
applications
composites,
recycling
mixed
plastic
wastes,
3D
printing,
other
fields.
offered
comprehensive
solution
future
industrial
production
via
copolymerization,
bridging
gap
between
practical
process
from
synthetic
chemistry
perspective
enhanced
material
properties
application
perspective.
Macromolecules,
Journal Year:
2024,
Volume and Issue:
57(11), P. 5279 - 5288
Published: May 20, 2024
As
a
widely
used
functional
polyolefin,
the
industrial
ethylene
(E)-methyl
acrylate
(MA)
copolymer
(EMA),
prepared
by
free
radical
polymerization
under
harsh
conditions,
is
lightly
branched
with
in-chain
and
terminal
MA
incorporation.
Metal-catalyzed
E/MA
copolymerization
as
an
alternative
technique
highly
attractive
challenging.
Herein,
we
first
report
efficient
direct
using
"sandwich"
dibenzobarrelene-derived
α-diimine
nickel
catalysts.
The
produced
EMA
copolymers
in-chain,
pendant,
units
have
chain
structure
very
similar
to
EMA,
which
not
previously
reported
palladium
Experimental
results
support
that
noncovalent
Ni–phenyl
interactions
in
catalysts
promote
copolymerization.
Density
theory
studies
clearly
illuminate
crucial
role
of
well
explain
formation
chain.
