Polymers,
Год журнала:
2023,
Номер
15(3), С. 764 - 764
Опубликована: Фев. 2, 2023
Due
to
the
wide
application
of
wearable
electronic
devices
in
daily
life,
research
into
flexible
electronics
has
become
very
attractive.
Recently,
various
polymer-based
sensors
have
emerged
with
great
sensing
performance
and
excellent
extensibility.
It
is
well
known
that
different
structural
designs
each
confer
their
own
unique,
impacts
on
properties
materials.
For
pressure/strain
sensors,
determine
response-sensing
mechanisms,
thus
showing
unique
advantages
characteristics.
This
paper
mainly
focuses
pressure-sensing
materials
applied
microstructures
reviews
respective
advantages.
At
same
time,
pressure
microstructures,
including
respect
working
key
parameters,
relevant
operating
ranges,
are
discussed
detail.
According
summary
its
morphologies
can
be
designed
for
a
sensor
according
characteristics
scenario
requirements,
optimal
structure
adjusted
by
weighing
comparing
performances
future.
Finally,
conclusion
future
perspectives
described.
Chemical Reviews,
Год журнала:
2024,
Номер
124(6), С. 3220 - 3283
Опубликована: Март 11, 2024
The
human
body
continuously
emits
physiological
and
psychological
information
from
head
to
toe.
Wearable
electronics
capable
of
noninvasively
accurately
digitizing
this
without
compromising
user
comfort
or
mobility
have
the
potential
revolutionize
telemedicine,
mobile
health,
both
human–machine
human–metaverse
interactions.
However,
state-of-the-art
wearable
face
limitations
regarding
wearability
functionality
due
mechanical
incompatibility
between
conventional
rigid,
planar
soft,
curvy
skin
surfaces.
E-Tattoos,
a
unique
type
electronics,
are
defined
by
their
ultrathin
skin-soft
characteristics,
which
enable
noninvasive
comfortable
lamination
on
surfaces
causing
obstruction
even
perception.
This
review
article
offers
an
exhaustive
exploration
e-tattoos,
accounting
for
materials,
structures,
manufacturing
processes,
properties,
functionalities,
applications,
remaining
challenges.
We
begin
summarizing
properties
effects
signal
transmission
across
e-tattoo-skin
interface.
Following
is
discussion
structural
designs,
manufacturing,
attachment
processes
e-tattoos.
classify
e-tattoo
functionalities
into
electrical,
mechanical,
optical,
thermal,
chemical
sensing,
as
well
wound
healing
other
treatments.
After
discussing
energy
harvesting
storage
capabilities,
we
outline
strategies
system
integration
wireless
In
end,
offer
personal
perspectives
challenges
future
opportunities
in
field.
ACS Nano,
Год журнала:
2023,
Номер
17(18), С. 17634 - 17667
Опубликована: Сен. 7, 2023
Soft
bioelectronics
play
an
increasingly
crucial
role
in
high-precision
therapeutics
due
to
their
softness,
biocompatibility,
clinical
accuracy,
long-term
stability,
and
patient-friendliness.
In
this
review,
we
provide
a
comprehensive
overview
of
the
latest
representative
therapeutic
applications
advanced
soft
bioelectronics,
ranging
from
wearable
for
skin
wounds,
diabetes,
ophthalmic
diseases,
muscle
disorders,
other
diseases
implantable
against
complex
such
as
cardiac
arrhythmias,
cancer,
neurological
others.
We
also
highlight
key
challenges
opportunities
future
translation
commercialization
toward
personalized
medicine.
Advanced Sensor Research,
Год журнала:
2023,
Номер
3(3)
Опубликована: Май 3, 2023
Abstract
Hydrogels
have
drawn
considerable
attention
in
the
field
of
flexible
chemical
sensors
due
to
their
unique
3D
structure,
high
permeability,
ion‐conductivity,
and
tissue‐like
mechanical
properties.
These
structures
properties
allow
them
be
functionalized
into
diverse
sensing
components
respond
signals
complex
environments.
Herein,
an
overview
functional
hydrogel‐based
is
provided.
First,
representative
hydrogel
materials
are
introduced
operating
principles
for
discussed.
Then,
state‐of‐the‐art
applications
highlighted
including
gas
sensors,
humidity
pH
glucose
wound
monitoring,
others.
Finally,
major
challenges
opportunities
this
Advanced Healthcare Materials,
Год журнала:
2024,
Номер
13(16)
Опубликована: Апрель 3, 2024
Cardiovascular
diseases
represent
a
significant
threat
to
the
overall
well-being
of
global
population.
Continuous
monitoring
vital
signs
related
cardiovascular
health
is
essential
for
improving
daily
management.
Currently,
there
has
been
remarkable
proliferation
technology
focused
on
collecting
data
through
electronic
skin
monitoring.
However,
concerns
have
arisen
regarding
potential
irritation
and
inflammation
due
necessity
prolonged
wear
wearable
devices.
To
ensure
comfortable
uninterrupted
monitoring,
concept
biocompatible
gained
substantial
attention.
In
this
review,
skins
are
comprehensively
summarized
discussed.
The
recent
achievements
in
introduced.
Their
working
principles,
fabrication
processes,
performances
sensing
technologies,
materials,
integration
systems
highlighted,
comparisons
made
with
other
used
addition,
significance
integrating
updating
wireless
communication
development
smart
medical
field
explored.
Finally,
opportunities
challenges
also
examined.
