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 Healthcare Materials,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Sept. 17, 2024
Abstract
The
rapid
advancements
in
artificial
intelligence,
micro‐nano
manufacturing,
and
flexible
electronics
technology
have
unleashed
unprecedented
innovation
opportunities
for
applying
sensors
healthcare,
wearable
devices,
human–computer
interaction.
human
body's
tactile
perception
involves
physical
parameters
such
as
pressure,
temperature,
humidity,
all
of
which
play
an
essential
role
maintaining
health.
Inspired
by
the
sensory
function
skin,
many
bionic
been
developed
to
simulate
skin's
various
stimuli
are
widely
applied
health
monitoring.
Given
urgent
requirements
sensing
performance
integration
field
devices
monitoring,
here
is
a
timely
overview
recent
advances
multi‐functional
It
covers
fundamental
components
categorizes
them
based
on
different
response
mechanisms,
including
resistive,
capacitive,
voltage,
other
types.
Specifically,
application
these
area
monitoring
highlighted.
Based
this,
extended
dual/triple‐mode
integrating
temperature
presented.
Finally,
challenges
discussed.
npj Flexible Electronics,
Journal Year:
2024,
Volume and Issue:
8(1)
Published: May 11, 2024
Abstract
Wound
infection
is
a
worldwide
health
issue
that
not
only
brings
large
detrimental
effects
to
people’s
physical
and
mental
health,
but
also
causes
substantial
economic
burdens
society.
By
using
traditional
surgical
debridement
antibiotic
therapy,
patients
generally
suffer
more
pain
are
at
risk
of
recurring
infections.
Thus,
the
development
non-antibiotic
treatment
methods
desperately
needed.
Currently,
emerging
flexible
wound
dressings
with
physiological
signal
detection,
inactivated
infectious
pathogen,
wound-healing
promoting
properties
has
exhibited
immense
potential
for
infected
wound.
Among
various
dressings,
MXene‐based
electronic
materials
as
special
electroactive,
mechanical,
photophysical,
biological
performances
possess
broad
application
prospect
in
healthcare.
In
this
review,
challenges
management
introduced.
Next,
types
MXene-based
features
outlined.
Then
recent
advance
detection
summarized.
Lastly,
predicaments,
prospects,
future
directions
discussed.
Journal of Materiomics,
Journal Year:
2023,
Volume and Issue:
9(6), P. 1242 - 1262
Published: Sept. 25, 2023
The
escalating
demand
for
micro/nano-sized
devices,
such
as
micro/nano-robots,
intelligent
portable/wearable
microsystems,
and
implantable
medical
microdevices,
necessitates
the
expeditious
development
of
integrated
microsystems
incorporating
energy
conversion,
storage,
consumption.
Critical
bottlenecks
in
microscale
storage/sensors
their
systems
are
being
addressed
by
exploring
new
technologies
materials,
e.g.,
MXene,
holding
great
potential
developing
lightweight
deformable
microdevices.
This
review
summarizes
latest
progress
milestones
realization
MXene-based
micro-supercapacitors
(MSCs)
sensor
arrays,
thus
discusses
design
fundamentals
key
advancements
conversion-storage-consumption
microsystems.
Finally,
we
outline
challenges
fabricating
MSCs/sensors
self-powered
which
is
crucial
practical
applications.
Particularly,
illuminate
viable
solutions
to
unsolved
issues
highlight
exciting
opportunities.
