Advanced Functional Materials,
Год журнала:
2022,
Номер
33(9)
Опубликована: Дек. 16, 2022
Abstract
Real‐time
monitoring
of
mental
stress
biomarkers
in
sweat
provides
the
possibility
to
evaluate
status
a
precise
manner.
In
general,
wearable
sensors
suffer
from
inconvenient
collection,
low
levels
diagnostic
sweat,
sophisticated
signal
processing,
and
challenges
with
data
visualization.
To
overcome
these
challenges,
herein
an
integrated
sweat‐sensing
patch
for
continuous
analysis
(cortisol,
Mg
2+
,
pH)
at
rest
is
demonstrated.
The
sensing
comprised
microfluidic
chip,
highly
sensitive
platform,
on‐site
processing
circuitry
(SPCs),
smartphone
installed
home‐developed
display
software.
collection
realized
using
chip
without
perspiration
assistance.
A
ternary
composite
electrode
designed
obtain
good
conductivity,
high
surface
area,
massive
reactive
sites,
thereby
yielding
excellent
electrochemical
performances
sensitivity
trace
biomarkers.
SPC
has
function
transduction,
conditioning,
wireless
transmission.
detection
results
can
be
displayed
on
through
This
work
represents
significant
scientific
technological
advancement
toward
indexing
used
as
innovative
tool
psychological
diagnosis.
Chemical Science,
Год журнала:
2024,
Номер
unknown
Опубликована: Янв. 1, 2024
This
review
covers
the
recent
advances
in
flexible
piezoelectric
materials,
which
show
great
potential
for
strain
sensors
wearable
electronics
and
artificial
intelligence,
focusing
on
microstructure
engineering
fabrication
techniques.
Sensors,
Год журнала:
2025,
Номер
25(3), С. 964 - 964
Опубликована: Фев. 5, 2025
Flexible
tactile
sensors
are
widely
used
in
aerospace,
medical
and
health
monitoring,
electronic
skin,
human–computer
interaction,
other
fields
due
to
their
unique
advantages,
thus
becoming
a
research
hotspot.
The
goal
is
develop
flexible
sensor
characterized
by
outstanding
sensitivity,
extensive
detection
range
linearity,
elevated
spatial
resolution,
commendable
adaptability.
Among
several
strategies
like
capacitive,
piezoresistive,
triboelectric
sensors,
etc.,
we
focus
on
piezoelectric
because
of
self-powered
nature,
high
quick
response
time.
These
can
respond
wide
dynamic
mechanical
stimuli
turn
them
into
measurable
electrical
signals.
This
makes
it
possible
accurately
detect
objects,
including
shapes
textures,
for
sense
touch
real
work
encapsulates
current
advancements
focusing
enhanced
material
properties,
optimized
structural
design,
improved
fabrication
techniques,
broadened
application
domains.
We
outline
the
challenges
facing
provide
inspiration
guidance
future
development.
Abstract
Profited
from
the
rapid
development
of
flexible
skin‐like
electronic
materials
and
artificial
intelligent
technology,
remarkable
achievements
have
been
witnessed
in
wearable
health
monitoring
devices
recent
years.
The
systems
featured
with
tailored
structures
compositions
as
well
enriched
functions
enable
human
beings
to
access
next‐generation
closed‐loop
platform
for
early
disease
prevention
diagnosis.
In
this
context,
mini‐review
focuses
on
progress
applications
devices.
Specifically,
basic
sensing
mechanisms
corresponding
property
requirements
healthcare
are
examined
firstly.
Secondly,
versatile
advanced
detecting
temperature,
heart
rate,
blood
pressure
glucose
scrutinized
exclusively.
Finally,
a
brief
summary
is
presented
accompanying
future
outlook
terms
material
preparation,
mechanism
integration
design
systems.
This
manuscript
expected
provide
critical
guidelines
those
working
electronics,
sensors,
devices,
other
related
disciplines,
especially
beginners.
Advanced Functional Materials,
Год журнала:
2022,
Номер
33(9)
Опубликована: Дек. 16, 2022
Abstract
Real‐time
monitoring
of
mental
stress
biomarkers
in
sweat
provides
the
possibility
to
evaluate
status
a
precise
manner.
In
general,
wearable
sensors
suffer
from
inconvenient
collection,
low
levels
diagnostic
sweat,
sophisticated
signal
processing,
and
challenges
with
data
visualization.
To
overcome
these
challenges,
herein
an
integrated
sweat‐sensing
patch
for
continuous
analysis
(cortisol,
Mg
2+
,
pH)
at
rest
is
demonstrated.
The
sensing
comprised
microfluidic
chip,
highly
sensitive
platform,
on‐site
processing
circuitry
(SPCs),
smartphone
installed
home‐developed
display
software.
collection
realized
using
chip
without
perspiration
assistance.
A
ternary
composite
electrode
designed
obtain
good
conductivity,
high
surface
area,
massive
reactive
sites,
thereby
yielding
excellent
electrochemical
performances
sensitivity
trace
biomarkers.
SPC
has
function
transduction,
conditioning,
wireless
transmission.
detection
results
can
be
displayed
on
through
This
work
represents
significant
scientific
technological
advancement
toward
indexing
used
as
innovative
tool
psychological
diagnosis.