Современные инновации системы и технологии - Modern Innovations Systems and Technologies,
Год журнала:
2024,
Номер
4(4), С. 0401 - 0425
Опубликована: Ноя. 29, 2024
Manufacturing
has
made
significant
advances
this
century
across
all
technical
and
technological
domains.
In
the
race
for
kind
of
growing,
textiles
compete.
An
interesting
development
in
textile
apparel
sectors
is
smart
textiles.
Intelligent
are
capable
sensing,
processing,
interpreting
a
wide
range
impulses
reactions,
whether
they
come
from
electrical,
chemical,
biological,
magnetic,
or
other
sources.
Three
categories
may
be
used
to
categorize
amount
intelligence:
bright
materials,
dynamic
creative
clothes,
passively
intelligent
clothing.
The
five
unique
operations
innovative
devices,
retention,
networking,
data
detectors.
But
it
must
uniform
garment
functions
involving
robustness,
use,
resistance
conventional
maintenance
methods.
It
no
longer
limited
our
ideas
just
evident
Hollywood
productions;
now
great
potential
part
daily
lives.
These
days,
widely
many
different
areas,
such
as
emergency
clothing,
spy
army
health
security
gear.
addition,
biological
applications,
athletic
apparel,
safety
equipment,
textiles,
rocketry,
host
things.
Thus,
another
name
might
next-generation
apparel.
This
study
aims
give
broad
overview
including
their
types
functions.
inventory
clothing
items,
well
contemporary
goods
examined.
The
emergence
of
wearable
electronics,
along
with
an
increased
emphasis
on
personal
health,
has
catalyzed
a
transformation
in
conventional
health
monitoring
methods.
Textile
electronics
are
attracting
significant
attention
due
to
their
good
flexibility,
breathability,
biocompatibility,
portability
and
wearability,
positioning
them
as
promising
platform
for
human
monitoring.
Consequently,
substantial
efforts
being
dedicated
developing
multifunctional,
integrated,
reliable
systems
based
textile
electronics.
This
review
summarizes
recent
advancements
focusing
materials,
preparation
techniques
functional
fibers
fabrics,
design
strategies
textile-based
systems,
applications
ubiquitous
Additionally,
some
emerging
integration
presented.
Moreover,
the
challenges
future
outlook
potential
solutions
discussed.
Chemical Reviews,
Год журнала:
2025,
Номер
unknown
Опубликована: Март 31, 2025
Sensorimotor
functions,
the
seamless
integration
of
sensing,
decision-making,
and
actuation,
are
fundamental
for
robots
to
interact
with
their
environments.
Inspired
by
biological
systems,
incorporation
soft
materials
devices
into
robotics
holds
significant
promise
enhancing
these
functions.
However,
current
systems
often
lack
autonomy
intelligence
observed
in
nature
due
limited
sensorimotor
integration,
particularly
flexible
sensing
actuation.
As
field
progresses
toward
soft,
flexible,
stretchable
materials,
developing
such
becomes
increasingly
critical
advanced
robotics.
Despite
rapid
advancements
individually
devices,
combined
applications
enable
capabilities
emerging.
This
review
addresses
this
emerging
providing
a
comprehensive
overview
that
functions
robots.
We
delve
latest
development
technologies,
actuation
mechanism,
structural
designs,
fabrication
techniques.
Additionally,
we
explore
strategies
control,
artificial
(AI),
practical
application
across
various
domains
as
healthcare,
augmented
virtual
reality,
exploration.
By
drawing
parallels
aims
guide
future
research
robots,
ultimately
adaptability
unstructured
Abstract
Transdermal
drug
delivery
(TDD)
systems
have
evolved,
with
skin
electronics
emerging
as
an
advanced
technology
capable
of
enabling
controlled
and
efficient
administration.
However,
conventional
often
rely
on
rigid
materials
expensive
fabrication
processes,
limiting
flexibility,
adhesion,
long-term
usability.
To
overcome
these
challenges,
nanofiber-based
adhesive
gained
attention
a
promising
alternative,
offering
high
large
surface
area
for
loading,
release
mechanisms.
In
this
study,
we
developed
cellulose
nanofiber
(CNFs)-based
by
integrating
three-dimensional
(3D)
octopus-inspired
architecture
(OIA)
conductive
layer.
The
OIA
imprinted
CNFs
enhanced
adhesion
leveraging
the
synergistic
effect
its
structure
ability
to
remain
stable
even
after
absorbing
high-viscosity
active
ingredient
solutions.
Unlike
fiber-based
TDD
flatforms,
which
lose
structural
integrity
upon
liquid
absorption,
optimized
CNFs-OIA
retains
architecture,
suction-based
improve
attachment.
further
enhance
transdermal
efficiency,
integrated
layer
carbon
nanotubes
(CNTs)
into
CNFs-OIA.
This
interface
generates
microcurrents
that
reduce
electrical
resistance
stratum
corneum
facilitate
ionization
ingredients,
thereby
improving
penetration.
These
findings
suggest
optimization
material
integration,
combined
microcurrent-assisted
delivery,
can
extend
applications
beyond
cosmetics,
potential
implications
pharmaceutical
delivery.