Mechanically
interlocked
networks
are
cross-linked
by
mechanically
polymers,
whose
dynamic
mechanical
bonding
provides
a
solid
foundation
for
their
application
in
materials
science.
Noncovalent
interactions
indispensable
linkages
building
supramolecular
polymers
but
exhibit
low
strength.
Therefore,
this
paper,
we
have
designed
and
synthesized
class
of
polymer
(MISPNs)
with
shape
memory
behavior,
using
which
prepared
gel
solvent-responsive
behavior
reversible
light
transmittance
changes
response
to
noncovalent
interactions.
It
was
found
that
the
naphthalene-functionalized
pillar[5]arene
(compound
3)
served
as
backbone
MISPNs,
its
topology
not
only
ensured
good
stability
also
endowed
properties
materials.
Meanwhile,
abundant
oxygen
(O)
sulfur
(S)
atoms
form
multiple
hydrogen
bonds
H
protonated
solvent,
contributes
transmission
The
herein
reported
MISPNs
offer
possible
strategy
development
multifunctional
properties,
sensitive
stimulus
excellent
smart
information
protection
properties.
Abstract
Polyethylene
glycol
chains
in
two
terminals
of
the
naphthalene
functional
group
are
threaded
into
α‐cyclodextrin
cavities
to
form
pseudopolyrotaxane
(NPR),
which
not
only
effectively
induces
phosphorescence
by
cyclodextrin
macrocycle
confinement,
but
also
provides
interfacial
hydrogen
bonding
assembly
function
between
polyhydroxy
groups
and
waterborne
polyurethane
(WPU)
construct
elastomers.
The
introduction
NPR
endows
elastomer
with
enhanced
mechanical
properties
excellent
room
temperature
phosphorescent
(RTP)
emission
(phosphorescence
remains
water,
acid,
alkali,
organic
solvents,
even
at
160
°C
high
temperatures).
Especially,
reversible
mechanically
responsive
behavior
intensity
increased
three
times
under
200%
strain)
can
be
observed
stretch
recover
process,
owing
strain‐induced
microstructural
changes
further
inhibiting
non‐radiative
transition
vibration
NPR.
Therefore,
changing
supramolecular
elastomers
through
stretching
a
new
approach
for
luminescent
materials.
Advanced Functional Materials,
Год журнала:
2024,
Номер
34(46)
Опубликована: Июль 9, 2024
Abstract
In
recent
years,
there
is
a
growing
interest
in
developing
ultralong
organic
room‐temperature
phosphorescence
(ORTP)
with
lifetimes
the
range
of
seconds.
As
one
important
three
primary
colors,
blue
ORTP
an
indispensable
core
component
RTP
regulation
and
application,
however,
large
Stokes
shift
characteristics
pose
certain
challenges
ORTP.
Here,
new
family
phosphors
are
synthesized
realized
through
crystal
assembly
water
phase.
Remarkably,
compared
to
materials
obtained
phases,
enabled
long‐lived
up
2.3
s
quantum
yield
reached
as
high
29.27%.
addition
efficient
green
form,
such
dark
possessed
thermal
stability
flexible
tunability.
Moreover,
superiority
selected
components
demonstrated
by
comparing
them
polymer
proposed
show
great
potential
programmable
information
encryption/anti‐counterfeiting.
Nature Communications,
Год журнала:
2025,
Номер
16(1)
Опубликована: Март 12, 2025
Ionic
actuators
with
capability
of
electro-mechanical
transduction
are
emerging
as
a
useful
platform
for
artificial
intelligence
and
modern
medical
instruments.
However,
the
insufficient
ion
transport
inside
material
interfaces
usually
leads
to
limited
energy
efficiency
density
actuators.
Here,
we
report
polyrotaxane
interface
adjustable
based
on
sliding-ring
effect
highly-efficient
ionic
The
switch
status
channels
is
synchronous
actuation
strains,
barrier
interfacial
transfer
reduced.
As
result,
gets
significantly
improved.
as-delivered
devices
stronger
than
that
mammalian
skeletal
muscle.
Based
high
performances,
demonstrate
fiber-shape
soft
actuator
can
be
directly
injected
into
biological
tissue
just
using
syringe.
injectable
promising
surgical
navigation
physiological
monitoring.
Traditional
capacitive
mechanism
suffers
from
low
efficiency.
authors
sliding
ring
large
density.
Advanced Optical Materials,
Год журнала:
2025,
Номер
unknown
Опубликована: Апрель 3, 2025
Abstract
Room‐temperature
phosphorescence
(RTP)
polymer‐based
materials
have
attracted
widespread
attention
due
to
their
advantages
of
the
desired
flexibility
and
processability,
high
thermal
stability,
simple
synthesis.
Nevertheless,
phosphorescent
efficiency
these
is
generally
low
for
rotation
vibration
luminophores.
Herein,
an
“internal
locking
external
anchoring”
strategy
proposed
completely
fix
luminophores
by
introducing
thiophene
carboxylic
acid
derivatives
into
polymers.
The
resulting
RTP
exhibit
a
quantum
yield
up
69%,
exceeding
currently
reported
interaction
between
S
adjacent
C═O
in
carboxyl
group
acts
as
intramolecular
conformational
lock,
while
strong
hydrogen
bonds
polymers
guest
molecules
serve
anchors.
rotational
vibrational
motion
constrained
synergism
effect
internal
anchoring.
Additionally,
facilitates
spin–orbit
coupling
charge
transfer
molecules.
As
result,
show
ultralong
pure
with
ultrahigh
efficiency.
Their
performance
can
be
adjusted
changing
aromatic
heterocyclic
guests.
This
work
presents
novel
universal
way
developing
highly
efficient
materials.
ACS Applied Materials & Interfaces,
Год журнала:
2025,
Номер
unknown
Опубликована: Апрель 7, 2025
Phosphorescent
materials
have
potential
applications
in
anticounterfeiting
and
optoelectronics,
but
their
luminescence
is
generally
quenched
at
elevated
temperatures.
Herein,
a
synergistic
locking
strategy
has
been
developed
to
achieve
high-temperature
phosphorescence
(HTP)
of
carbon
dot
(CD)
composites.
Impressively,
the
CD
composites
retain
over
90%
75%
intensity
temperatures
up
110
170
°C,
respectively.
Even
higher
than
persists
for
5
s,
demonstrating
remarkable
stabilization
triplet
excitons.
Experimental
theoretical
results
revealed
that
this
outstanding
thermal
resistance
stems
from
effect
interlayer
covalent
bridges
multiple
hydrogen
bonding
interface.
Furthermore,
by
adjusting
degree
graphitization,
multicolor
HTP
ranging
blue
red
achieved
This
work
not
only
provides
facile
versatile
way
construct
CD-based
also
expands
heat-resistant
display
environments.
Advanced Functional Materials,
Год журнала:
2025,
Номер
unknown
Опубликована: Апрель 14, 2025
Abstract
The
absence
of
a
meniscal
prosthesis
that
fully
accommodates
the
complex
motion
demands
human
knee
joint
remains
challenge
in
clinical
practice.
This
study
synthesized
polyurethane
elastomer
with
enhanced
mechanical
properties,
featuring
dynamic
dimethyldioxime‐urethane
structure
provides
self‐healing
capabilities.
Additionally,
adamantane‐grafted
hyaluronic
acid
has
been
integrated
into
containing
cyclodextrin,
imparting
self‐lubricating
properties
through
supramolecular
host‐guest
interactions
between
adamantane
and
cyclodextrin.
innovative
is
utilized
to
fabricate
(DPU@HA).
In
vitro
experiments
demonstrated
DPU@HA's
exceptional
cytocompatibility
chondrocytes.
vivo
studies
revealed
DPU@HA
significantly
protected
articular
cartilage
following
meniscus
removal
by
reducing
high
stress
within
cartilage,
thereby
inhibiting
Piezo1
overactivation
subsequent
chondrocyte
apoptosis.
With
its
(DPU@HA)
holds
promise
for
applications
preventing
progression
osteoarthritis
after
meniscectomy.
Advanced Materials,
Год журнала:
2024,
Номер
unknown
Опубликована: Окт. 28, 2024
Abstract
Though
mechano‐responsive
luminescent
materials
obtained
much
attention,
most
of
their
responses
are
non‐reversible,
let
alone
in
situ
reversible.
Here,
the
study
presents
a
new
strategy
to
push
through
this
limitation
for
applications,
which
relies
on
reversible
(MR)
hydrogen
bonding
interactions
and
polymer
chain
orientation
among
doped
polyurethane
(PU)
elastomer.
The
radiative
nonradiative
transitions
inside
these
phosphorescent
triphenylene‐based
aromatic
secondary
amines
(TpNP
TpNPO)
PU
matrix
can
be
accordingly
modulated
by
MR
variations,
including
chains
between
emitters
PU,
respectively.
Surprisingly,
intensities,
quantum
yields,
even
lifetimes
ultralong
phosphorescence
correlate
well
with
stress
showing
triple
mechano‐enhancement
small
threshold
value
7.9
MPa.
Importantly,
rapidly
phosphorescences
possess
excellent
repeatability,
is
still
displayed
after
>500
cycles
loading/unloading.
Based
such
robust
highly
sensitive
afterglow,
have
been
demonstrated
applications
no
interruption
background
several
fields,
micro‐crack
detection,
material
damage
prediction,
limb
movement
monitoring,
information
encryption.
This
work
provides
insights
developing
innovative
improved
luminescence
behavior.
