Journal of Engineering Research,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Feb. 1, 2024
Wireless
power
transfer
(WPT)
has
already
been
established
as
a
popular
technology
in
multiple
areas
such
electric
vehicle
charging,
smartphone
or
powering
bio-medical
implants.
In
recent
years,
wireless
electronic
textiles
(e-textiles)
smart
seen
rapid
growth
with
the
advancement
of
textile
materials
and
flexible
components.
Although
many
reviews
surveys
on
WPT
can
be
found
literature
for
other
fields,
this
is
not
case
application
e-textiles.
To
address
issue,
comparative
review
previous
e-textiles
presented
paper.
The
textile-based
systems
have
categorized
according
to
their
transmitter
(Tx)
receiver
(Rx)
properties,
Tx
Rx
fabrication
technique,
applied
substrate,
operating
frequency,
level,
achieved
efficiency.
tabular
analysis
different
parameters
acts
platform
researchers,
manufacturers,
industry
personnel
acquire
information
data
evaluating
systems.
opportunities
challenges
applications
also
discussed
detail
give
an
overview
prospects
field.
Angewandte Chemie International Edition,
Journal Year:
2024,
Volume and Issue:
63(16)
Published: March 2, 2024
Hybrid
nanomaterials
have
found
use
in
many
biomedical
applications.
This
article
provides
a
comprehensive
review
of
the
principles,
techniques,
and
recent
advancements
design
fabrication
hybrid
for
biomedicine.
We
begin
with
an
introduction
to
general
concept
material
hybridization,
followed
by
discussion
how
this
approach
leads
materials
additional
functionality
enhanced
performance.
then
highlight
forms
nanostructures,
nanocomposites,
metal-organic
frameworks,
biohybrids,
including
their
methods.
also
showcase
advance
engineering
context
nanomedicine,
regenerative
medicine,
diagnostics,
theranostics,
biomanufacturing.
Finally,
we
offer
perspectives
on
challenges
opportunities.
Advanced Functional Materials,
Journal Year:
2024,
Volume and Issue:
34(32)
Published: May 23, 2024
Abstract
Textile‐based
wearable
triboelectric
nanogenerators
(TENGs)
have
emerged
as
viable
power
sources
for
electronics.
However,
it
is
still
a
daunting
challenge
to
realize
high‐performing
textile‐based
nanogenerator
without
compromising
its
intrinsic
textile‐like
properties,
such
stretchability,
breathability,
and
conformability.
The
above
addressed
by
fabricating
record
wearable,
breathable
stretchable
based
on
polarization‐induced
ultra‐stretchable
EVA/Nylon‐11
micro/nano‐fibers
(1250%)
the
positive
layer
EVA/PVDF/BA
2
CsAgBiBr
7
(1480%)
negative
layer.
excellent
breathability
(1.15
Kgm
−2
d
−1
)
high
energy‐harvesting
performance
(650
V,
19.5
µAcm
are
attributed
mechanically‐socketed
structure
of
aligned
EVA
microfibers
with
polarized
nanofibers,
thus
providing
universal
framework
fabricate
piezoelectric
fibers.
Compositional
engineering
surface
charges
coupled
triboelectric‐induced
enabled
enhanced
compared
other
nanogenerators.
Additionally,
utilized
self‐powered
pressure
sensor
an
ultra‐wide
sensing
range
(0.05–500
kPa)
sensitivity
(2.5
VkPa
even
under
deformations.
To
best
knowledge,
PI‐STENG
stands
out
amongst
various
sensors
in
terms
stretchability.
demonstrated
machine
learning‐enabled
intellisensor
workforce
safety
monitoring.
Polymers,
Journal Year:
2024,
Volume and Issue:
16(13), P. 1841 - 1841
Published: June 28, 2024
The
latest
progress
(the
year
2021-2024)
on
multifunctional
sensors
based
silicone
rubber
is
reported.
These
are
useful
for
real-time
monitoring
through
relative
resistance,
current
change,
and
capacitance
types.
present
review
contains
a
brief
overview
literature
survey
the
their
multifunctionalities.
This
an
introduction
to
different
functionalities
of
these
sensors.
Following
introduction,
types
filler
or
fabrication
briefly
described.
coming
section
deals
with
methodology
composites
where
integrated.
special
focus
mechanical
electro-mechanical
properties
discussed.
Electro-mechanical
response
time,
linearity,
gauge
factor
next
this
reports
dispersion
its
role
in
influencing
applications
Finally,
various
human
body
motions,
breathing
activity,
environment
humidity,
organic
gas
sensing,
and,
finally,
smart
textiles.
Ultimately,
study
summarizes
key
takeaway
from
article.
conclusions
focused
merits
demerits
followed
by
future
prospects.
Angewandte Chemie,
Journal Year:
2024,
Volume and Issue:
136(16)
Published: March 2, 2024
Abstract
Hybrid
nanomaterials
have
found
use
in
many
biomedical
applications.
This
article
provides
a
comprehensive
review
of
the
principles,
techniques,
and
recent
advancements
design
fabrication
hybrid
for
biomedicine.
We
begin
with
an
introduction
to
general
concept
material
hybridization,
followed
by
discussion
how
this
approach
leads
materials
additional
functionality
enhanced
performance.
then
highlight
forms
nanostructures,
nanocomposites,
metal–organic
frameworks,
biohybrids,
including
their
methods.
also
showcase
advance
engineering
context
nanomedicine,
regenerative
medicine,
diagnostics,
theranostics,
biomanufacturing.
Finally,
we
offer
perspectives
on
challenges
opportunities.
The Design Journal,
Journal Year:
2025,
Volume and Issue:
unknown, P. 1 - 27
Published: Jan. 16, 2025
It
is
important
to
recognize
that,
while
digitization
has
made
significant
advancements,
it
largely
overlooked
everyday
clothing,
which
remains
a
vital
aspect
of
our
lives.
This
gap
can
be
attributed
the
noticeable
lag
in
textile
industry
compared
microelectronics
sector.
concept
review
emphasizes
significance
creating
smart
clothing
that
features
digital
interface
and
explores
its
potential
benefits
within
metaverse.
Our
idea
focuses
on
enhancing
such
garments
implement
human
twin
concept,
we
believe,
could
enable
an
evolution
innate
abilities
realm.
To
achieve
this,
have
identified
essential
requirements
for
smooth
integration
into
metaverse
elaborated
these
needs.
Nonetheless,
despite
anticipated
benefits,
proposed
model
faces
several
challenges,
been
outlined,
including
issues
related
energy
consumption,
production
methods,
safety
standards,
sustainability
considerations.
ACS Applied Materials & Interfaces,
Journal Year:
2023,
Volume and Issue:
15(24), P. 29486 - 29498
Published: June 9, 2023
The
increasing
prevalence
of
health
problems
stemming
from
sedentary
lifestyles
and
evolving
workplace
cultures
has
placed
a
substantial
burden
on
healthcare
systems.
Consequently,
remote
wearable
monitoring
systems
have
emerged
as
essential
tools
to
track
individuals'
well-being.
Self-powered
triboelectric
nanogenerators
(TENGs)
exhibited
significant
potential
for
use
emerging
detection
devices
capable
recognizing
body
movements
breathing
patterns.
However,
several
challenges
remain
be
addressed
in
order
fulfill
the
requirements
self-healing
ability,
air
permeability,
energy
harvesting,
suitable
sensing
materials.
These
materials
must
possess
high
flexibility,
lightweight,
excellent
charging
effects
both
electropositive
electronegative
layers.
In
this
work,
we
investigated
self-healable
electrospun
polybutadiene-based
urethane
(PBU)
positive
layer
titanium
carbide
(Ti3C2Tx)
MXene
negative
fabrication
an
energy-harvesting
TENG
device.
PBU
consists
maleimide
furfuryl
components
well
hydrogen
bonds
that
trigger
Diels–Alder
reaction,
contributing
its
properties.
Moreover,
incorporates
multitude
carbonyl
amine
groups,
which
create
dipole
moments
stiff
flexible
segments
polymer.
This
characteristic
positively
influences
qualities
by
facilitating
electron
transfer
between
contacting
materials,
ultimately
resulting
output
performance.
We
employed
device
applications
monitor
human
motion
pattern
recognition.
soft
fibrous-structured
generates
stable
open-circuit
voltage
up
30
V
short-circuit
current
4
μA
at
operation
frequency
4.0
Hz,
demonstrating
remarkable
cyclic
stability.
A
feature
our
is
allows
restoration
functionality
performance
after
sustaining
damage.
been
achieved
through
utilization
fibers,
can
repaired
via
simple
vapor
solvent
method.
innovative
approach
enables
maintain
optimal
continue
functioning
effectively
even
multiple
uses.
After
integration
with
rectifier,
charge
various
capacitors
power
120
LEDs.
self-powered
active
sensor,
attaching
it
purposes.
Additionally,
demonstrates
capability
recognize
patterns
real
time,
offering
valuable
insights
into
individual's
respiratory
health.
