Advanced Optical Materials,
Journal Year:
2024,
Volume and Issue:
12(19)
Published: March 14, 2024
Abstract
1D
photonic
crystals
(1DPCs)
with
hierarchically
structured
lamellar
periodic
frameworks
that
enable
precise
control
of
light‐matter
interactions
and
contribute
robust
structural
colors
represent
a
groundbreaking
advancement
in
optical
materials.
The
microstructural
characteristics
the
constituent
material
properties
these
materials
play
pivotal
roles
determining
their
performance
functionality.
In
recent
years,
diverse
array
novel
structures
crafted
from
various
emerged,
showcasing
tremendous
potential
advanced
applications.
This
article
provides
an
in‐depth
review
developments
1DPCs,
emphasizing
morphological
designs,
fabrication
strategies,
detail,
1DPCs
featuring
distinct
geometrical
morphologies,
including
lamellar,
helical,
fibrous,
spherical,
nanochained
are
systematically
introduced,
highlighting
unique
arising
microstructures.
Then,
methods,
involving
some
innovative
techniques
utilizing
standing‐wave
optics,
UV
dual
photopolymerization,
inkjet
printing,
succinctly
summarized
for
constructing
different
by
using
building
Subsequently,
typical
application
examples
listed
discussed
visual
sensing,
intelligent
displays,
anti‐counterfeiting
technology,
pigments,
devices.
Finally,
passage
addresses
current
challenges
presents
forward‐looking
perspective
on
future
1DPCs.
ACS Applied Materials & Interfaces,
Journal Year:
2023,
Volume and Issue:
15(25), P. 30606 - 30618
Published: June 17, 2023
Due
to
the
large
specific
surface
area
and
continuous
pores
in
structures,
metal–organic
frameworks
(MOFs)
show
great
advantages
adsorption
of
volatile
organic
compounds
(VOCs).
Photonic
crystal
(PC)
sensors
derived
from
MOFs
are
promising
for
visual
detection
VOC
gases.
However,
they
still
have
problems
low
sensitivity
poor
color
saturation
tunability.
Here,
inspired
by
vapor-sensitive
scales
Tmesisternus
isabellae
beetle
scattering
light
absorption
polydopamine,
a
porous
one-dimensional
PC
sensor
is
constructed
combining
ZIF-8
with
TiO2@PDA
nanoparticles.
The
shows
significant
changes
under
different
concentrations
benzene
vapor
reaches
limit
0.8
g/m3.
It
has
response
time
less
than
1
s
maintains
stable
optical
performance
after
100
times
reuse.
Moreover,
ZIF-67
ZIF-7
both
incorporated
into
PCs
comparison;
it
reveals
that
superior
detecting
property.
Additionally,
synergistic
VOCs
inner
outer
holes
layer
demonstrated
real-time
mass
monitoring
quartz
microbalance
dissipation.
This
study
provides
valuable
reference
fabrication
high-quality
MOF-based
sensing
mechanism
between
microscopic
molecular
macroscopic
performance.
Advanced Functional Materials,
Journal Year:
2023,
Volume and Issue:
33(49)
Published: Sept. 8, 2023
Abstract
Electronic
skins
(E‐skins),
which
are
intelligent
extensions
of
the
human
skin,
in
great
demand
because
rapid
development
information
technology
and
intelligence
civilization.
Essentially,
E‐skin
systems
composed
functional
interface
components.
The
function
portion
carries
out
various
functions
like
sensing,
power
production,
therapy.
In
addition
to
ensuring
consistent
wear
comfort,
system
is
necessary
for
transfer
energy
or
mass
between
skin
components
system.
serves
as
foundation,
conduit,
link
systems.
wearability
functionality
significantly
impacted
by
interfacial
adhesion
intermediate
effect.
It
crucial
build
accordance
with
However,
there
few
reviews
on
impact
E‐skins.
Here,
design
thoroughly
reviewed,
taking
into
account
how
mechanisms
affect
function.
At
last,
future
direction
perspective
next‐generation
presented.
Advanced Optical Materials,
Journal Year:
2024,
Volume and Issue:
12(19)
Published: March 14, 2024
Abstract
1D
photonic
crystals
(1DPCs)
with
hierarchically
structured
lamellar
periodic
frameworks
that
enable
precise
control
of
light‐matter
interactions
and
contribute
robust
structural
colors
represent
a
groundbreaking
advancement
in
optical
materials.
The
microstructural
characteristics
the
constituent
material
properties
these
materials
play
pivotal
roles
determining
their
performance
functionality.
In
recent
years,
diverse
array
novel
structures
crafted
from
various
emerged,
showcasing
tremendous
potential
advanced
applications.
This
article
provides
an
in‐depth
review
developments
1DPCs,
emphasizing
morphological
designs,
fabrication
strategies,
detail,
1DPCs
featuring
distinct
geometrical
morphologies,
including
lamellar,
helical,
fibrous,
spherical,
nanochained
are
systematically
introduced,
highlighting
unique
arising
microstructures.
Then,
methods,
involving
some
innovative
techniques
utilizing
standing‐wave
optics,
UV
dual
photopolymerization,
inkjet
printing,
succinctly
summarized
for
constructing
different
by
using
building
Subsequently,
typical
application
examples
listed
discussed
visual
sensing,
intelligent
displays,
anti‐counterfeiting
technology,
pigments,
devices.
Finally,
passage
addresses
current
challenges
presents
forward‐looking
perspective
on
future
1DPCs.
