ACS Applied Materials & Interfaces,
Journal Year:
2024,
Volume and Issue:
16(34), P. 45131 - 45138
Published: Aug. 15, 2024
The
unique
features
of
two-dimensional
(2D)
materials
provide
significant
opportunities
for
the
development
transparent
and
flexible
electronics.
Recently,
ambipolar
2D
semiconductors
have
advanced
innovative
applications
such
as
CMOS-like
circuits,
reconfigurable
ultrafast
neuromorphic
image
sensors.
Here,
we
report
on
fabrication
full
field-effect
transistors
(FETs),
in
which
graphene
serves
source/drain/gate
electrodes,
WSe
Advanced Science,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Sept. 28, 2024
Abstract
Maintaining
the
stability
of
human
body
temperature
is
basis
ensuring
normal
life
activities
witness,
and
emergence
various
functional
clothing
committed
to
assisting
in
thermal
comfort
range
changeable
environment.
However,
achieve
dual‐mode
regulation
for
cooling
insulation
on
an
integrated
material
without
energy
input
addition
particles
has
thus
far
been
a
huge
challenge.
Herein,
biomimetic
camel‐fur
designed
micro‐extruded
physically
foamed
porous
elastic
fiber
(MEPF)
using
thermoplastic
polyurethane
(TPU)
elastomer
as
raw
reported,
its
dual‐layered
fabric
(MEPFT‐d)
effective
personal
comfortable
management
at
extreme
differences.
Benefit
from
micro‐nano‐pores
structure,
MEPFT‐d
represents
radiate
capacity
by
high
solar
reflectance
emissivity,
behaves
low
conductivity
delaying
heat
scattering,
promotes
evaporative
unidirectional
water
transport.
These
excellent
properties
ensure
that
reduces
loss
cold
weather
(7.2
°C
higher
than
cotton)
blocks
outside
hot
(10.2
lower
cotton),
which
suitable
complex
outdoor
scenes.
The
cost‐effectiveness
superior
wearing
this
work
provide
innovative
pathways
sustainable
energy,
smart
textiles,
applications.
npj Flexible Electronics,
Journal Year:
2024,
Volume and Issue:
8(1)
Published: Dec. 4, 2024
With
the
increasing
demand
for
wearable
electronic
products,
there
is
a
pressing
need
to
develop
devices
that
seamlessly
conform
contours
of
human
body
while
delivering
excellent
performance
and
reliability.
Traditional
rigid
fabrication
technologies
fall
short
meeting
these
requirements,
necessitating
exploration
advanced
flexible
offer
new
possibilities
designing
fabricating
stretchable
particularly
in
devices.
Over
time,
continuous
development
innovative
techniques
has
ushered
significant
improvements
design
freedom,
lightweight,
seamless
integration,
multifunctionality
electronics.
Here,
we
provide
comprehensive
overview
advancements
facilitated
by
technology
It
specifically
focuses
on
key
methods,
including
printed
electronics
fabrication,
soft
transfer,
3D
structure
deformation
fabrication.
By
highlighting
advancements,
it
sheds
light
challenges
prospects
further
technologies.
The
introduction
revolutionized
landscape
wearable/conformable
electronics,
expanding
their
application
domains,
streamlining
system
complexity
associated
with
customization,
manufacturing,
production,
opening
up
avenues
innovation
body-conformable
ACS Applied Electronic Materials,
Journal Year:
2024,
Volume and Issue:
7(1), P. 463 - 470
Published: Dec. 20, 2024
With
the
rapid
development
of
technologies,
such
as
Internet
Things
and
artificial
intelligence,
flexible
electronic
skin
(e-skin)
that
bridges
material
physical
world
presents
vast
market
potential.
However,
cost-effective,
multifunctional
e-skin
remains
a
formidable
challenge.
Herein,
dual-functional
based
on
microspinous
MXene/PDMS
composite
film
is
prepared
by
using
low-cost
natural
template
method.
The
has
good
performance,
making
it
suitable
for
detecting
small
pressures
joint
movements
well
high-quality
electromyogram
electrocardiogram
signals.
can
monitor
variety
human
motions
electrophysiological
signals,
positioning
promising
tool
in
areas
motion
detection
health
monitoring.
ACS Applied Materials & Interfaces,
Journal Year:
2024,
Volume and Issue:
17(1), P. 91 - 109
Published: Dec. 25, 2024
A
new
member
is
incorporated
into
the
SERS
active
materials
family
daily
as
a
consequence
of
advances
in
science.
Furthermore,
it
has
been
demonstrated
that
MXenes,
which
display
remarkable
physicochemical
characteristics,
are
also
encompassed
within
this
family.
This
Review
offers
comprehensive
and
systematic
assessment
potential
MXene
structures
context
applications.
First,
historical
development
SERS-active
substrates
evolution
various
over
time
analyzed.
Subsequently,
formation
structural
properties
were
subjected
to
detailed
examination.
The
principal
objective
elucidate
rationale
behind
preference
for
substrate,
given
its
distinctive
properties.
In
context,
while
MXene's
abundant
surface
functional
groups
represent
significant
advantage,
high
electrical
conductivity,
suitable
flexibility,
extensive
two-dimensional
areas,
antibacterial
activity
warrant
consideration
terms
It
emphasized
that,
nanolayers
demonstrate
optimal
performance
applications,
plan
should
be
devised
consider
these
features.
By
increasing
readers'
awareness
using
opportunities
future
application
areas
may
created.
ACS Applied Materials & Interfaces,
Journal Year:
2024,
Volume and Issue:
16(34), P. 45131 - 45138
Published: Aug. 15, 2024
The
unique
features
of
two-dimensional
(2D)
materials
provide
significant
opportunities
for
the
development
transparent
and
flexible
electronics.
Recently,
ambipolar
2D
semiconductors
have
advanced
innovative
applications
such
as
CMOS-like
circuits,
reconfigurable
ultrafast
neuromorphic
image
sensors.
Here,
we
report
on
fabrication
full
field-effect
transistors
(FETs),
in
which
graphene
serves
source/drain/gate
electrodes,
WSe
