ACS Applied Materials & Interfaces,
Год журнала:
2021,
Номер
13(27), С. 32286 - 32294
Опубликована: Июнь 29, 2021
With
the
increasing
demand
for
thermal
management
materials
in
highly
integrated
electronics
area,
building
efficient
heat-transfer
networks
to
obtain
advanced
thermally
conductive
composites
is
of
great
significance.
In
present
work,
poly(vinyl
alcohol)
(PVA)/boron
nitride
nanoplatelets@silver
nanowires
(BNNS@AgNW)
were
fabricated
via
combination
electrospinning
and
spraying
technique,
followed
by
a
hot-pressing
method.
BNNS
are
oriented
along
in-plane
direction,
while
AgNWs
with
high
aspect
ratio
can
help
construct
network
effectively
bridging
composites.
The
PVA/BNNS@AgNW
showed
conductivity
(TC)
10.9
W/(m·K)
at
33
wt
%
total
fillers
addition.
Meanwhile,
composite
shows
excellent
dispassion
capability
when
it
taken
as
interface
material
working
light-emitting
diode
(LED)
chip,
which
certified
capturing
surface
temperature
LED
chip.
addition,
out-of-plane
electrical
below
10–12
S/cm.
outstanding
insulating
properties
hold
promise
application
packaging
management.
Microsystems & Nanoengineering,
Год журнала:
2023,
Номер
9(1)
Опубликована: Янв. 1, 2023
Abstract
Flexible
wearable
sweat
sensors
allow
continuous,
real-time,
noninvasive
detection
of
analytes,
provide
insight
into
human
physiology
at
the
molecular
level,
and
have
received
significant
attention
for
their
promising
applications
in
personalized
health
monitoring.
Electrochemical
are
best
choice
due
to
high
performance,
low
cost,
miniaturization,
wide
applicability.
Recent
developments
soft
microfluidics,
multiplexed
biosensing,
energy
harvesting
devices,
materials
advanced
compatibility
electrochemical
sweat-sensing
platforms.
In
this
review,
we
summarize
potential
medical
methods
stimulation
collection.
This
paper
provides
an
overview
components
recent
power
supply
technologies
highlights
some
typical
sensing
platforms
different
types
analytes.
Finally,
ends
with
a
discussion
challenges
view
prospective
development
exciting
field.
Sensors International,
Год журнала:
2021,
Номер
2, С. 100121 - 100121
Опубликована: Янв. 1, 2021
Sensor
technologies
have
improved
the
everyday
life
of
human
beings
through
their
applications
in
almost
all
fields.
Sensors
are
devices
that
detect
changes
source/environment
and
collect
signals,
accordingly,
reaction
is
designed.
There
a
range
sources,
including
light,
temperature,
movements,
pressure
etc.,
which
may
be
used.
A
wide
utilised
using
innovative
sensor
lifestyle,
healthcare,
fitness,
manufacturing,
daily
life.
In
medical
field,
difficulty
to
take
medicine
eased
by
drug
donors
fitted
with
sensors.
It
reminds
them
via
signal
also
supply
necessary
at
specified
moment.
health
care,
older
individuals,
athletes,
risk
patients
benefit
from
modern
technology.
The
current
industrial
trends
driving
innovation
include
ultrasound,
radar,
non-contact
optoelectronic
solutions
laser
paper
gives
brief
overview
numerous
types
sensors
Various
capabilities
for
day-to-day
healthcare
discussed.
features,
associated
nomenclature,
measures
routine
discussed
diagrammatically
finally,
identifies
discusses
twenty-two
significant
produce
vital
information
exchange
data
other
connected
administration
systems
when
linked
network.
Thus,
effective
running
many
companies,
critical.
used
our
life,
more
accurate
makes
quicker
analysis.
Biosensors,
Год журнала:
2022,
Номер
12(7), С. 543 - 543
Опубликована: Июль 20, 2022
Biosensors
are
ubiquitous
in
a
variety
of
disciplines,
such
as
biochemical,
electrochemical,
agricultural,
and
biomedical
areas.
They
can
integrate
various
point-of-care
applications,
the
food,
healthcare,
environmental
monitoring,
water
quality,
forensics,
drug
development,
biological
domains.
Multiple
strategies
have
been
employed
to
develop
fabricate
miniaturized
biosensors,
including
design,
optimization,
characterization,
testing.
In
view
their
interactions
with
high-affinity
biomolecules,
they
find
application
sensitive
detection
analytes,
even
small
sample
volumes.
Among
many
developed
techniques,
microfluidics
widely
explored;
these
use
fluid
mechanics
operate
biosensors.
The
currently
used
commercial
devices
bulky,
slow
operation,
expensive,
require
human
intervention;
thus,
it
is
difficult
automate,
integrate,
miniaturize
existing
conventional
for
multi-faceted
applications.
Microfluidic
biosensors
advantages
mobility,
operational
transparency,
controllability,
stability
reaction
volume
sensing.
This
review
addresses
biosensor
technologies,
classification,
advances,
challenges
microfluidic-based
value
chain
developing
critically
discussed,
fabrication
other
associated
protocols
testing
