Advanced Materials,
Journal Year:
2024,
Volume and Issue:
36(25)
Published: April 4, 2024
Creating
a
large-scale
contactless
user-interactive
sensing
display
(CUISD)
with
optimal
features
is
challenging
but
crucial
for
efficient
human-human
or
human-machine
interactions.
This
study
reports
CUISD
based
on
dynamic
alternating
current
electroluminescence
(ACEL)
that
responds
to
humidity.
Subsecond
humidity-induced
luminescence
achieved
by
integrating
highly
responsive
hydrogel
into
the
ACEL
layer.
The
patterned
silver
nanofiber
electrode
and
layer,
produced
through
electrospinning
microfabrication,
result
in
stretchable,
large-scale,
high-resolution,
multicolor,
CUISD.
implemented
real-time
control
of
remote-controlled
car,
wherein
signals
induced
touchless
finger
movements
are
distinguished
encoded
deliver
specific
commands.
Moreover,
distinctive
recognition
breathing
facilitates
serve
as
visual
signal
transmitter
information
interaction,
which
particularly
beneficial
individuals
disabilities.
paradigm
shift
depicts
this
work
expected
reshape
way
authors
interact
each
other
devices,
discovering
niche
applications
virtual/augmented
reality
metaverse.
Chiral
nanomaterials
with
intrinsic
chirality
or
spatial
asymmetry
at
the
nanoscale
are
currently
in
limelight
of
both
fundamental
research
and
diverse
important
technological
applications
due
to
their
unprecedented
physicochemical
characteristics
such
as
intense
light-matter
interactions,
enhanced
circular
dichroism,
strong
circularly
polarized
luminescence.
Herein,
we
provide
a
comprehensive
overview
state-of-the-art
advances
liquid
crystal-templated
chiral
nanomaterials.
The
chiroptical
properties
touched,
design
principles
bottom-up
synthesis
strategies
discussed.
Different
functional
based
on
liquid-crystalline
soft
templates,
including
plasmonic
luminescent
nanomaterials,
systematically
introduced,
underlying
mechanisms,
properties,
potential
emphasized.
This
review
concludes
perspective
emerging
applications,
challenges,
future
opportunities
fascinating
can
not
only
deepen
our
understanding
fundamentals
soft-matter
chirality,
but
also
shine
light
development
advanced
toward
versatile
optics,
biology,
catalysis,
electronics,
beyond.
Nano-Micro Letters,
Journal Year:
2022,
Volume and Issue:
15(1)
Published: Nov. 28, 2022
Abstract
In
nature,
many
living
organisms
exhibiting
unique
structural
coloration
and
soft-bodied
actuation
have
inspired
scientists
to
develop
advanced
colored
soft
actuators
toward
biomimetic
robots.
However,
it
is
challenging
simultaneously
biomimic
the
angle-independent
color
shape-morphing
capabilities
found
in
plum-throated
cotinga
flying
bird.
Herein,
we
report
MXene-based
with
that
are
fabricated
through
controlled
self-assembly
of
colloidal
SiO
2
nanoparticles
onto
highly
aligned
MXene
films
followed
by
vacuum-assisted
infiltration
polyvinylidene
fluoride
into
interstices.
The
resulting
exhibit
brilliant,
color,
as
well
ultrafast
recovery
speeds
(a
maximum
curvature
0.52
mm
−1
can
be
achieved
within
1.16
s,
a
time
~
0.24
s)
response
acetone
vapor.
As
proof-of-concept
illustrations,
applied
demonstrate
blue
gripper-like
bird’s
claw
capture
target,
artificial
green
tendrils
twine
around
tree
branches,
an
multicolored
butterfly
flutter
its
wings
upon
cyclic
exposure
strategy
expected
offer
new
insights
development
multifunctional
for
somatosensory
robotics
next-generation
intelligent
machines.
Angewandte Chemie International Edition,
Journal Year:
2022,
Volume and Issue:
61(42)
Published: Sept. 2, 2022
Developing
bioinspired
camouflage
materials
that
can
adaptively
change
color
in
the
visible
and
infrared
(IR)
regions
is
an
intriguing
but
challenging
task.
Herein,
we
report
emerging
strategy
for
fabricating
dynamic
IR
by
controlled
situ
growth
of
novel
photopolymerizable
blue
phase
liquid
crystals
with
cubic
nanoarchitectures
onto
highly
aligned
MXene
nanostructured
thin
films.
The
resulting
MXene-integrated
3D
soft
photonic
exhibit
vivid
structural
colors
reversible
switching
between
a
bright
colored
state
dark
black
under
low
DC
electric
field.
As
illustration,
proof-of-concept
pixelated
devices
allow
pixel-controllable
electrochromism
are
demonstrated.
Furthermore,
free-standing
electrochromic
flexible
film
such
fabricated,
where
thermal
enabled
leveraging
superior
electrothermal
conversion
mid-IR
emissivity
nanomaterials.
Advanced Functional Materials,
Journal Year:
2022,
Volume and Issue:
32(40)
Published: July 20, 2022
Abstract
Counterfeiting
is
a
growing
global
issue
causing
severe
negative
impacts
on
the
social
economy
and
posing
serious
security
threats
to
individuals
communities.
However,
current
anticounterfeiting
technologies
are
relatively
well
known
fakers
lack
sufficient
owing
development
commercialization
of
high‐resolution
equipment.
Thus,
designing
new
materials
systems
urgently
needed.
Photonic
crystals
(PCs)
with
vivid
structural
colors
promising
for
advanced
applications
because
their
unique
optical
characteristics.
In
particular,
responsive
PCs
(RPCs),
whose
signals
can
be
readily
adjusted
by
external
stimuli,
expected
provide
improved
may
used
determine
authenticity
banknotes,
documents,
drugs.
this
review,
strategies
summarized
RPCs,
including
filling
into
interstitial
space
periodic
photonic
structures
using
as
construction
blocks
PCs.
Subsequently,
latest
progress
in
developing
RPCs
constructed
encryption
information
discussed
detail.
Finally,
challenges
outlook
presented.
Science Advances,
Journal Year:
2022,
Volume and Issue:
8(25)
Published: June 24, 2022
Reprogrammable
magneto-responsive
soft
actuators
capable
of
working
in
enclosed
and
confined
spaces
adapting
functions
under
changing
situations
are
highly
demanded
for
new-generation
smart
devices.
Despite
the
promising
prospect,
realization
versatile
morphing
modes
(more
than
bending)
local
magnetic
control
remains
challenging
but
is
crucial
further
on-demand
applications.
Here,
we
address
challenges
by
maximizing
unexplored
potential
magnetothermal
responsiveness
covalent
adaptable
networks
(CANs)
liquid
crystalline
elastomers
(LCEs).
Various
magneto-actuated
contraction-derived
motions
that
were
hard
to
achieve
previously
(e.g.,
bidirectional
shrinkage
dynamic
3D
patterns)
can
be
attained,
reprogrammed,
assembled
seamlessly
endow
functional
diversity
complexity.
By
integration
LCEs
with
different
threshold
values,
sequential
readily
realized.
Many
actuation
portfolios
performed
rationally
imputing
“logic
switch”
sequences.
Meanwhile,
our
systems
exhibit
additional
favorable
performances
including
stepwise
controllability,
multiresponsiveness,
self-healing,
remolding
ability.
Advanced Materials,
Journal Year:
2022,
Volume and Issue:
35(23)
Published: Dec. 3, 2022
Liquid
crystal
elastomers
(LCEs)
are
renowned
for
their
large,
reversible,
and
anisotropic
shape
change
in
response
to
various
external
stimuli
due
lightly
cross-linked
polymer
networks
with
an
oriented
mesogen
direction,
thus
showing
great
potential
applications
robotics,
bio-medics,
electronics,
optics,
energy.
To
fully
take
advantage
of
the
stimuli-responsive
behaviors
LCEs,
it
is
preferable
achieve
a
locally
controlled
alignment
into
monodomain
orientations.
In
recent
years,
application
4D
printing
LCEs
opens
new
doors
simultaneously
programming
3D
geometry,
offering
more
opportunities
higher
feasibility
fabrication
4D-printed
LCE
objects
desirable
properties.
Here,
state-of-the-art
advances
reviewed,
emphasis
on
both
mechanisms
applications.
First,
fundamental
properties
working
principles
representative
techniques
briefly
introduced.
Then,
by
advantages
over
conventional
manufacturing
methods
demonstrated.
Finally,
perspectives
current
challenges
development
trends
toward
discussed,
which
may
shed
light
future
research
directions
this
field.
Deleted Journal,
Journal Year:
2023,
Volume and Issue:
1(1)
Published: July 27, 2023
Abstract
Photonic
actuators,
serving
as
an
emerging
kind
of
intelligent
stimuli‐responsive
material,
can
exhibit
the
abilities
to
change
their
structural
colors/fluorescence
and
shapes
under
specific
external
stimuli,
which
have
demonstrated
essential
applications
in
fields
soft
robotics,
sensors,
bionics,
information
storage,
anti‐counterfeiting,
energy
harvesting.
In
this
review,
we
reported
state‐of‐the‐art
research
progress
photonic
actuators
classified
on
basis
material
type
focusing
actuation
mechanisms,
design
principles,
processing
techniques.
We
also
broadly
summarized
relative
robots,
so
on.
Finally,
a
vision
for
challenges
area
future
promising
directions
is
presented.
Abstract
Animals
can
modify
their
body
shape
and/or
color
for
protection,
camouflage
and
communication.
This
adaptability
has
inspired
fabrication
of
actuators
with
structural
changes
to
endow
soft
robots
additional
functionalities.
Using
liquid
crystal-based
materials
is
a
promising
approach.
In
this
review,
we
discuss
the
current
state
potential
applications
these
in
robotic
devices.
Advanced Functional Materials,
Journal Year:
2023,
Volume and Issue:
33(13)
Published: Jan. 15, 2023
Abstract
Damage
to
solid
polymer
electrolytes
can
lead
mechanical
degradation,
short
circuits,
or
functional
failures.
Therefore,
introducing
a
self‐healing
function
is
an
ideal
strategy
improve
the
safety
and
reliability
of
electrolyte
systems.
Herein,
dynamic
boronic
ester‐based
(DB‐SHPEs)
with
excellent
properties
interfacial
stability
are
developed
via
thermally
initiated
ring‐opening
reaction
between
thiol
epoxy
groups.
The
DB‐SHPEs
containing
ester
bonds
not
only
alter
topologies
transesterification
exhibit
good
capability
but
also
enable
homogeneous
deposition
Li
ions
on
metal
through
Lewis
acid–base
interactions
boron
atoms
salt
anions.
Furthermore,
endow
DB‐SHPE
reprocessability
recyclability
taking
advantage
associative
reaction.
More
significantly,
Li/DB‐SHPE/Li
symmetric
cells
stable
voltage
plateau
after
cycling
for
1200
h
LiFePO
4
/DB‐SHPE/Li
batteries
present
performance,
suggesting
that
high‐performance
multiple
functions
promising
materials
next‐generation
lithium
batteries.
