Micromachines,
Journal Year:
2025,
Volume and Issue:
16(5), P. 579 - 579
Published: May 15, 2025
MXene,
a
layered
nanocarbon
material,
exhibits
excellent
conductivity
and
solubility.
Its
high
sensitivity
also
makes
it
useful
for
soft
pressure
sensors.
However,
the
compatibility
between
fast
responses
in
resistance-change
sensors
remains
major
issue.
This
study
developed
an
MXene-based
high-performance
sensor
using
gel–deep
eutectic
solvent
composite.
The
composite
conductive
material
exhibited
solubility
printability
device
fabrication.
aim
of
this
work
was
to
produce
high-quality
that
quick
over
wide
range
detecting
applied
pressure.
achieved
performance
terms
high-speed
response
(40
ms)
good
(−0.0109
kPa−1).
These
results
represent
advance
intelligent
wearable
sensing
systems
by
combining
materials
science
electronic
devices.
Advanced Functional Materials,
Journal Year:
2025,
Volume and Issue:
unknown
Published: March 11, 2025
Abstract
Flexible
sensing
electronics,
with
good
lightweight
and
flexibility,
can
maintain
excellent
capability
while
fitting
complex
curved
surfaces,
having
important
applications
in
wearable
devices,
medical
health
monitoring,
robotics.
The
rapid
advancement
of
metal‐organic
frameworks
(MOFs)
has
created
the
prospect
additional
improvements
flexible
sensors.
porous
structure
brings
them
a
high
specific
surface
area,
meaning
that
when
used
as
sensitive
materials
for
sensors,
sensitivity
selectivity
be
achieved.
Meanwhile,
performance
stability
MOF‐based
sensors
further
enhanced
by
modifying
MOFs’
or
compounding
other
materials,
which
is
crucial
manufacturing
utilized
working
conditions.
Herein,
MOFs
systematically
reviewed.
First,
common
series
MOFs,
preparation
modification
methods,
highly
conductive
are
introduced.
application
then
expounded,
including
self‐powered
mechanical
sensing,
gas
liquid
analyte
multi‐target/mode
sensing.
It
believed
better
response
capabilities
developed
processes
advance,
expected
to
more
widely
future
promote
development
technologies
such
human‐computer
interaction
technology.
ACS Sensors,
Journal Year:
2025,
Volume and Issue:
unknown
Published: March 16, 2025
Iontronic
pressure
sensors
(IPSs)
are
emerging
as
promising
candidates
for
integration
into
wearable
electronics
and
healthcare
monitoring
systems
due
to
their
high
sensitivity
low
power
consumption.
However,
achieving
across
a
broad
linear
range
remains
significant
challenge.
This
study
presents
novel
IPS
device
with
an
asymmetric
sandwich
structure,
which
includes
three-dimensional
electrode
made
of
nickel
manganese
oxide/carbon
nanotubes
(NMO/CNT)
embedded
iron
needles
ionic
dielectric
layer.
The
proposed
demonstrates
exceptional
linearity
over
1700
kPa,
exceeding
7700
kPa–1.
It
exhibits
rapid
response
recovery
times
in
the
millisecond
maintains
consistent
capacitive
15,000
loading–unloading
cycles.
Moreover,
enables
noncontact
sensing
magnetic
field
variations,
broadening
its
potential
applications.
innovative
design
effectively
balances
wide
range,
rendering
it
suitable
various
applications
such
nonverbal
communication
aids
systems.
Micromachines,
Journal Year:
2025,
Volume and Issue:
16(5), P. 579 - 579
Published: May 15, 2025
MXene,
a
layered
nanocarbon
material,
exhibits
excellent
conductivity
and
solubility.
Its
high
sensitivity
also
makes
it
useful
for
soft
pressure
sensors.
However,
the
compatibility
between
fast
responses
in
resistance-change
sensors
remains
major
issue.
This
study
developed
an
MXene-based
high-performance
sensor
using
gel–deep
eutectic
solvent
composite.
The
composite
conductive
material
exhibited
solubility
printability
device
fabrication.
aim
of
this
work
was
to
produce
high-quality
that
quick
over
wide
range
detecting
applied
pressure.
achieved
performance
terms
high-speed
response
(40
ms)
good
(−0.0109
kPa−1).
These
results
represent
advance
intelligent
wearable
sensing
systems
by
combining
materials
science
electronic
devices.
