International Journal For Multidisciplinary Research,
Год журнала:
2024,
Номер
6(3)
Опубликована: Июнь 29, 2024
This
proposal
presents
a
novel
method
to
improve
the
conductivity
and
adaptability
of
conductive
inks
by
using
graphene
carbon
quantum
dots.
The
goal
is
generate
an
ink
formulation
with
improved
mechanical
flexibility,
electrical
conductivity,
charge
transport
mixing
these
nanoparticles.
Printability,
adherence,
on
range
substrates—including
paper,
plastics,
textiles—will
all
be
maximized
for
this
formulation.
To
guarantee
stability,
rheological
control,
compatibility
current
printing
technology,
will
go
through
thorough
evaluation
characterization
process.
ground-breaking
has
potential
transform
number
sectors
advance
sustainable
technology
its
use
in
flexible
electronics,
energy
storage
devices,
smart
packaging,
other
areas.
Biosensors and Bioelectronics,
Год журнала:
2024,
Номер
260, С. 116421 - 116421
Опубликована: Май 27, 2024
Wearable
technologies
are
becoming
pervasive
in
our
society,
and
their
development
continues
to
accelerate
the
untapped
potential
of
continuous
ubiquitous
sensing,
coupled
with
big
data
analysis
interpretation,
has
only
just
begun
unfold.
However,
existing
wearable
devices
still
bulky
(mainly
due
batteries
electronics)
have
suboptimal
skin
contact.
In
this
work,
we
propose
a
novel
approach
based
on
sensor
network
produced
through
inkjet
printing
nanofunctional
inks
onto
semipermeable
substrate.
This
enables
real-time
monitoring
critical
physiological
parameters,
including
temperature,
humidity,
muscle
contraction.
Remarkably,
system
operates
under
battery-free
wireless
near-field
communication
(NFC)
technology
for
readout
via
smartphones.
Moreover,
two
three
sensors
were
integrated
naturally
adhesive
bioinspired
membrane.
membrane,
developed
using
an
eco-friendly,
high-throughput
process,
draws
inspiration
from
remarkable
properties
mussel-inspired
molecules.
The
resulting
ultra-conformable
membrane
adheres
effortlessly
skin,
ensuring
reliable
collection.
urgency
effective
systems
cannot
be
overstated,
especially
context
rising
heat
stroke
incidents
attributed
climate
change
high-risk
occupations.
Heat
manifests
as
elevated
lack
sweating,
seizures.
Swift
intervention
is
crucial
prevent
progression
coma
or
fatality.
Therefore,
proposed
holds
immense
promise
these
parameters
field,
benefiting
both
general
population
workers,
such
firefighters.
Advanced Materials,
Год журнала:
2025,
Номер
unknown
Опубликована: Март 25, 2025
This
review
article
explores
the
transformative
potential
of
smart
dust
systems
by
examining
how
existing
chemical
sensing
technologies
can
be
adapted
and
advanced
to
realize
their
full
capabilities.
Smart
dust,
characterized
submillimeter-scale
autonomous
platforms,
offers
unparalleled
opportunities
for
real-time,
spatiotemporal
mapping
across
diverse
environments.
introduces
technological
advancements
underpinning
these
systems,
critically
evaluates
current
limitations,
outlines
new
avenues
development.
Key
challenges,
including
multi-compound
detection,
system
control,
environmental
impact,
cost,
are
discussed
alongside
solutions.
By
leveraging
innovations
in
miniaturization,
wireless
communication,
AI-driven
data
analysis,
sustainable
materials,
this
highlights
promise
address
critical
challenges
monitoring,
healthcare,
agriculture,
defense
sectors.
Through
lens,
provides
a
strategic
roadmap
advancing
from
concept
practical
application,
emphasizing
its
role
transforming
understanding
management
complex
systems.
