Angewandte Chemie,
Journal Year:
2024,
Volume and Issue:
136(38)
Published: June 21, 2024
Abstract
Facile
fabrication,
low
material
complexity
and
closed‐loop
recycling
are
essential
for
polymer
plastics
to
alter
their
linear
product
economy
towards
a
cradle‐to‐cradle
one.
Covalent
adaptable
networks
(CANs)
one
way
achieve
that,
which
intrinsically
exhibit
decent
mechanical
properties
like
the
thermosets
but
could
also
be
easily
recycled
thermoplastics.
In
this
work,
we
introduce
rigid
ester
structural
motifs
into
dynamic
poly(disulfide)s
form
series
of
dual
networks.
Owning
coherence
soft/rigid
segments
reversible
sacrificial
crosslinking,
they
tailorable
good
resistance
different
chemicals.
Their
is
achieved
via
mild
solvolysis,
maintaining
materials’
integrities.
It
offers
solution
as
sustainable
replacement
engineering
massively
under
production
hard
recycled.
Deleted Journal,
Journal Year:
2024,
Volume and Issue:
2(1)
Published: Jan. 12, 2024
Abstract
Stimuli‐responsive
fluorescent
hydrogels
are
three‐dimensional
networked
polymeric
materials
with
tunable
luminescence
and
dynamic
properties,
which
play
an
important
role
as
a
water‐rich
soft
material
in
the
fields
of
information
encryption,
bionic
actuation,
bioimaging,
environmental
monitoring,
luminescent
materials.
Compared
conventional
hydrogels,
their
unique
properties
allow
visualization
microscopic
dynamics
within
polymer
network.
By
rational
inclusion
motifs,
such
photoswitches,
AIEgens,
lanthanide
complexes,
host–guest
these
endowed
tunability
emission,
shape,
phase
time
space
response
to
effectors.
In
this
review,
we
summarize
fabrication
strategies
that
mainly
used
by
recently
reported
stimuli‐responsive
applications
Deleted Journal,
Journal Year:
2024,
Volume and Issue:
2(2)
Published: May 1, 2024
Abstract
Electrochromic
(EC)
technology
has
been
regarded
as
a
promising
energy‐saving
in
various
applications,
including
smart
windows,
displays,
thermal
management,
rear
views,
etc.
Benefiting
from
the
progress
electrochromic
material
synthesis,
electrode
fabrication,
and
device
configuration
design,
focus
community
gradually
shifted
to
multifunctional
devices
(ECDs)
era
of
Internet
Things.
Multifunctional
ECDs,
such
energy
storage
devices,
multi‐color
deformable
have
showcased
ability
expand
potential
applications.
In
this
review,
available
configurations,
performance
indexes
advanced
characterization
techniques
for
ECDs
are
introduced
classified
accordingly.
The
applications
storage,
multicolor
self‐chargeable
actuators,
etc.,
exemplified.
future
development
trends
perspectives
also
overlooked.
aim
review
is
guide
inspire
further
efforts
exploration
novel
ECDs.
Deleted Journal,
Journal Year:
2024,
Volume and Issue:
2(2)
Published: May 1, 2024
Abstract
Considering
the
continuous
advances
in
synthesis
and
clinical
applications
of
monoclonal
antibodies
(mAbs),
precision
therapies
that
employ
mAbs
are
essential.
In
recent
years,
extensive
efforts
have
been
invested
developing
novel
strategies
or
technologies
for
detection
mAbs.
Given
availability
advanced
biosensing
materials,
various
assemblies
multifunctional
materials
can
be
prepared
by
intelligent
design
when
evaluating
targets
This
article
provides
an
overview
functional
mAb
detection.
Subsequently,
we
present
approaches
which
receptors
combined
with
to
construct
stimulus‐responsive
analytical
platforms
evaluate
contents
activities
biological
systems,
enabling
real‐time
monitoring
diagnosis
could
facilitate
administration
during
treatment.
Furthermore,
review
examines
implications
real‐world
contexts;
it
also
discusses
ongoing
challenges
future
prospects.
Angewandte Chemie International Edition,
Journal Year:
2024,
Volume and Issue:
63(38)
Published: June 21, 2024
Facile
fabrication,
low
material
complexity
and
closed-loop
recycling
are
essential
for
polymer
plastics
to
alter
their
linear
product
economy
towards
a
cradle-to-cradle
one.
Covalent
adaptable
networks
(CANs)
one
way
achieve
that,
which
intrinsically
exhibit
decent
mechanical
properties
like
the
thermosets
but
could
also
be
easily
recycled
thermoplastics.
In
this
work,
we
introduce
rigid
ester
structural
motifs
into
dynamic
poly(disulfide)s
form
series
of
dual
networks.
Owning
coherence
soft/rigid
segments
reversible
sacrificial
crosslinking,
they
tailorable
good
resistance
different
chemicals.
Their
is
achieved
via
mild
solvolysis,
maintaining
materials'
integrities.
It
offers
solution
as
sustainable
replacement
engineering
massively
under
production
hard
recycled.
Deleted Journal,
Journal Year:
2024,
Volume and Issue:
2(3)
Published: July 28, 2024
Abstract
Ultrasound‐induced
circularly
polarized
luminescence
(CPL)
was
achieved
using
planar
chiral,
binuclear
clothespin‐shaped
trans‐
bis(salicylaldiminato)platinum(II)
complexes.
Solutions
of
the
platinum(II)
complexes
anti
‐
1a–c
in
cyclohexane
immediately
transformed
into
stable
gels
upon
brief
ultrasound
irradiation.
The
exhibited
intense
phosphorescent
emissions
at
room
temperature,
whereas
none
solution
significant
under
UV
light
illumination.
Interestingly,
prepared
from
optically
pure
CPL
activity
temperature
with
an
anisotropy
factor
|
g
lum
=
1.5–2.6
×
10
−3
.
emissive
were
readily
converted
to
original
non‐emissive
heating
and
cooling
could
be
gelled
again
by
In
addition,
chromogenic
control
green
red
emission
can
simply
introducing
MeO
groups
different
positions
on
aromatic
rings.
Deleted Journal,
Journal Year:
2024,
Volume and Issue:
2(2)
Published: May 1, 2024
Abstract
The
transient
and
elusive
intermediate
states
are
the
keys
in
self‐assembly
processes,
which
common
phenomena
shaping
structure,
properties,
functionalities
of
assembled
materials
across
many
scientific
domains.
However,
understanding
about
process
is
always
challenging
limited.
In
this
review,
we
focus
on
these
by
combining
theoretical
experimental
approaches.
By
examining
a
wide
variety
systems
that
span
from
biological
to
metal–organic
nanostructures,
review
uncovers
wealth
self‐assembled
materials.
addition
current
knowledge,
it
will
identify
challenges
provide
new
insight
into
opportunities
for
future
research.
Advanced Materials,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Oct. 14, 2024
Abstract
Light‐fueled
dissipative
self‐assembly
possesses
enormous
potential
in
the
field
of
optical
information
due
to
controllable
time‐dependent
signals,
but
remains
a
great
challenge
for
constructing
intelligent
light‐operated
logic
circuits
limited
availability
signal
inputs
and
outputs.
Herein,
series
light‐fueled
systems
with
variable
signals
are
reported
realize
diverse
gates
by
modulating
fluorescence
variations
loaded
fluorophores.
Three
kinds
alkyl
trimethylammonium
homologs
employed
co‐assemble
merocyanine‐based
photoinduced
amphiphile
separately
construct
self‐assemblies,
showing
unexpectedly
different
control
behaviors
fluorophores
during
light
irradiation
thermal
relaxation
processes.
The
opposite
monotonicity
emission
intensity
is
achieved
just
changing
excitation
wavelength.
Furthermore,
varying
types
trimethylammoniums
wavelengths,
robust
system
accomplished,
integrating
AND,
XNOR,
XOR
functions,
which
provides
an
effective
pathway
advancing
transmission
applications.
