Giant,
Journal Year:
2024,
Volume and Issue:
18, P. 100285 - 100285
Published: May 17, 2024
With
the
development
of
intelligent
protective
wearable
equipment,
flexible
materials
with
impact
resistance
have
become
a
focus
attention.
Shear
stiffening
gel
(SSG)
is
smart
material
that
can
perceive
external
force
loads
and
generate
mechanical
responses,
boasting
exceptional
properties
like
fast
response,
adaptability,
self-healing.
Since
SSG
absorb
large
amount
energy
during
dynamic
impact,
it
shows
remarkable
advantages
for
safety
protection
applications.
During
past
decade,
there
has
been
strong
interests
in
research
community
on
composites
their
various
applications
cutting-edge
fields.
In
this
review,
we
summarize
recent
achievements
composite,
by
focusing
improved
properties,
enhanced
functions,
manifold
structures.
Meanwhile,
also
discuss
practical
composite
battery
protection,
vibration
control,
sensing,
triboelectric
nanogenerator
(TENG).
Finally,
propose
prospects
challenges
further
application
future.
Chemical Engineering Journal,
Journal Year:
2022,
Volume and Issue:
452, P. 139060 - 139060
Published: Sept. 9, 2022
There
has
been
much
recent
interest
in
developing
triboelectric
nanogenerators
(TENGs)
to
scavenge
freely
available
mechanical
energy
address
future
requirements
for
clean
and
sustainable
technologies.
The
macroscale
performance
of
TENGs
is
determined
by
the
multifaceted
role
surface
material
properties
at
nanoscale,
which
must
be
understood
TENG
development.
To
achieve
desired
performance,
various
protocols
fabrication
tuning
surfaces
materials
are
required.
A
particularly
viable
application
area
source
relatively
low
powered
wearable
electronic
sensors
devices
via
textile
or
fibrous
TENGs.
Therefore,
this
review
focuses
on
advances
prepared
electrospinning
from
combinations
terms
design,
function,
obtain
next
generation
nanofiber-based
devices.
remarkable
physical
chemical
characteristics
a
wide
range
electrospun
nanostructured
achieving
optimised
discussed.
Recent
developments
flexible
electronics,
self-powered
also
discussed
detail.
Advanced Engineering Materials,
Journal Year:
2021,
Volume and Issue:
23(12)
Published: July 29, 2021
Textronics
contribute
a
significant
part
of
Internet‐of‐Things
(IoT),
which
empowers
added
functionalities
by
connecting
smart
clothing
in
secure
way
for
diverse
applications.
For
the
development
flexible
and
stretchable
textile‐based
electronics,
conductive
material
(yarn,
fabric,
etc.)
must
be
used,
fabrication
techniques
play
vital
role
that
significantly
influences
electronic
textiles’
properties.
Textile‐based
sensors,
electrodes,
other
devices
seem
to
favorite
choice
continuous
wearable
monitoring
due
their
low
cost,
flexibility,
ease
embedding.
Integrating
capabilities
into
textiles
provides
substantial
benefits
fields
healthcare,
sports,
automobile,
military.
These
developments
have
profound
influence
on
Fourth
Industrial
Revolution
(4IR).
This
Review
presents
an
in‐depth
study
current
state
art
area
electronics.
The
design,
development,
evaluation
are
discussed.
Certain
limitations
research
gaps
also
addressed
regarding
this
emerging
field.
Critically,
is
more
application
focused
indicates
how
recent
will
soon
impact
our
lives.
As
these
areas
typically
been
neglected
previous
reviews,
additional
knowledge
existing
literature
provided
bridging
gap
between
academic
commercialization
Textronics.
ACS Applied Nano Materials,
Journal Year:
2023,
Volume and Issue:
6(3), P. 1522 - 1540
Published: Jan. 20, 2023
Textiles
are
turning
into
a
suitable
next-generation
sensing
platform
because
of
their
good
breathability,
softness,
and
structural
elasticity.
Besides,
research
on
self-powered
piezoelectric
sensors
is
hot
topic
in
wearable
applications;
they
can
perform
long-term
monitoring.
Therefore,
this
paper
mainly
reviews
the
development
progress
PVDF-based
textiles
flexible
sensors.
In
paper,
we
first
introduce
principle
effect
classification
materials;
then
summarize
structure
characteristics
nanofiber
mat-based,
yarn-based,
fabric-based
approaches
that
employed
to
fabricate
textile
such
as
melt
spinning,
electrospinning,
stretch
forming
processes,
so
on.
At
last,
review
applicability
application
electronic
skin,
human–computer
interaction,
healthcare,
human
movement
monitoring
demonstrate
facing
difficulties
future
directions
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.
Journal of Materials Chemistry B,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Jan. 1, 2025
This
article
provides
a
comprehensive
examination
of
recent
advancements
in
silk
fibroin-based
composite
films,
with
focus
on
their
applications
bone
regeneration,
wound
healing,
and
health
monitoring.
