Chemical Society Reviews,
Год журнала:
2024,
Номер
53(17), С. 8790 - 8846
Опубликована: Янв. 1, 2024
Fabrics
represent
a
unique
platform
for
seamlessly
integrating
electronics
into
everyday
experiences.
The
advancements
in
functionalizing
fabrics
at
both
the
single
fibre
level
and
within
constructed
have
fundamentally
altered
their
utility.
revolution
materials,
structures,
functionality
enables
intimate
imperceptible
integration,
rapidly
transforming
fibres
next-generation
wearable
devices
systems.
In
this
review,
we
explore
recent
scientific
technological
breakthroughs
smart
fibre-enabled
fabrics.
We
examine
common
challenges
bottlenecks
physics,
chemistry,
fabrication
strategies,
applications
that
shape
future
of
electronics.
propose
closed-loop
fabric
ecosystem
encompassing
proactive
sensing,
interactive
communication,
data
storage
processing,
real-time
feedback,
energy
harvesting,
intended
to
tackle
significant
technology.
Finally,
envision
computing
as
sophisticated
platforms
with
system-level
attributes
management,
machine
learning,
artificial
intelligence,
intelligent
networks.
Advanced Fiber Materials,
Год журнала:
2022,
Номер
5(1), С. 12 - 35
Опубликована: Окт. 13, 2022
Abstract
Fiber
materials
are
highly
desirable
for
wearable
electronics
that
expected
to
be
flexible
and
stretchable.
Compared
with
rigid
planar
electronic
devices,
fiber-based
provide
significant
advantages
in
terms
of
flexibility,
stretchability
breathability,
they
considered
as
the
pioneers
new
generation
soft
wearables.
The
convergence
textile
science,
engineering
nanotechnology
has
made
it
feasible
build
functions
on
fibers
maintain
them
during
wear.
Over
last
few
years,
fiber-shaped
desired
designability
integration
features
have
been
intensively
explored
developed.
As
an
indispensable
part
cornerstone
great
significance.
Herein,
research
progress
advanced
fiber
is
reviewed,
which
mainly
includes
various
material
preparations,
fabrication
technologies
representative
studies
different
applications.
Finally,
key
challenges
future
directions
examined
along
analysis
possible
solutions.
Graphical
abstract
Chemical Reviews,
Год журнала:
2022,
Номер
123(2), С. 613 - 662
Опубликована: Авг. 17, 2022
The
development
of
fiber
materials
has
accompanied
the
evolution
human
civilization
for
centuries.
Recent
advances
in
science
and
chemistry
offered
fibers
new
applications
with
various
functions,
including
energy
harvesting,
storing,
displaying,
health
monitoring
treating,
computing.
unique
one-dimensional
shape
devices
endows
them
advantages
to
work
as
human-interfaced
electronics
due
small
size,
lightweight,
flexibility,
feasibility
integration
into
large-scale
textile
systems.
In
this
review,
we
first
present
a
discussion
basics
design
principles
devices,
followed
by
comprehensive
analysis
on
recently
developed
devices.
Finally,
provide
current
challenges
facing
field
give
an
outlook
future
research
directions.
With
novel
continuing
be
discovered
after
two
decades
research,
envision
that
could
have
important
impact
our
life
near
future.
Advanced Functional Materials,
Год журнала:
2023,
Номер
33(18)
Опубликована: Фев. 25, 2023
Abstract
Wearable
strain
sensors
with
the
ability
of
detecting
physiological
activities
play
an
important
role
in
personalized
healthcare.
Electrospun
fibers
have
become
a
popular
building
block
for
wearable
due
to
their
excellent
mechanical
properties,
breathability,
and
light
weight.
In
this
review,
structure
preparation
process
electrospun
conductive
layer
are
systematically
introduced.
The
impact
materials
structures
on
following
discussion
sensing
performance
optimization
strategies
is
outlined.
Furthermore,
applications
fiber‐based
biomonitoring,
motion
detection,
human‐machine
interaction
presented.
Finally,
challenges
promising
future
directions
community
based
pointed
out.
Abstract
Conductive
hydrogels
as
promising
material
candidates
for
soft
electronics
have
been
rapidly
developed
in
recent
years.
However,
the
low
ionic
conductivity,
limited
mechanical
properties,
and
insufficient
freeze‐resistance
greatly
limit
their
applications
flexible
wearable
electronics.
Herein,
aramid
nanofiber
(ANF)‐reinforced
poly(vinyl
alcohol)
(PVA)
organohydrogels
containing
dimethyl
sulfoxide
(DMSO)/H
2
O
mixed
solvents
with
outstanding
are
fabricated
through
solution
casting
3D
printing
methods.
The
show
both
high
tensile
strength
toughness
due
to
synergistic
effect
of
ANFs
DMSO
system,
which
promotes
PVA
crystallization
intermolecular
hydrogen
bonding
interactions
between
molecules
well
PVA,
confirmed
by
a
suite
characterization
molecular
dynamics
simulations.
also
exhibit
ultrahigh
ranging
from
1.1
34.3
S
m
−1
at
−50
60
°C.
Building
on
these
excellent
organohydrogel‐based
strain
sensors
solid‐state
zinc–air
batteries
(ZABs)
fabricated,
broad
working
temperature
range.
Particularly,
ZABs
not
only
specific
capacity
(262
mAh
g
)
ultra‐long
cycling
life
(355
cycles,
118
h)
even
−30
°C,
but
can
work
properly
under
various
deformation
states,
manifesting
great
potential
robotics
Advanced Functional Materials,
Год журнала:
2023,
Номер
33(33)
Опубликована: Май 1, 2023
Abstract
Benefiting
from
inherent
lightweight,
flexibility,
and
good
adaptability
to
human
body,
functional
textiles
are
attracting
tremendous
attention
cope
with
wearable
issues
in
sustainable
applications
around
beings.
In
this
feature
article,
a
comprehensive
thoughtful
review
is
proposed
regarding
research
activities
of
smart
properties.
Specifically,
brief
exposition
highlighting
the
significance
rising
demands
novel
throughout
society
begun.
Next,
systematic
provided
about
fabrication
1D
spinning,
2D
modification,
3D
construction,
their
diverse
functionality
as
well
applications,
showing
clear
picture
evolved
readers.
How
engineer
compositions,
structures,
properties
elaborated
achieve
different
All
these
tunable,
upgraded,
versatile
make
developed
suited
for
extensive
ranging
environmental
monitoring
or
freshwater
access
personal
protection
power
supply.
Finally,
simple
summary
critical
analysis
drawn,
emphasis
on
insight
into
remaining
challenges
future
directions.
With
worldwide
efforts,
advance
breakthrough
textile
functionalization
expounded
will
promote
revolution
intelligence
era.
Advanced Functional Materials,
Год журнала:
2023,
Номер
unknown
Опубликована: Ноя. 27, 2023
Abstract
The
advancements
in
high‐performance
flexible
energy
storage
devices
are
crucial
to
realize
the
integration
and
multifunctionality
of
wearable
devices.
Transition
metal
selenides
(TMSes),
possess
high
theoretical
capacity
electrical
conductivity,
which
hold
great
promise
for
applications.
This
review
provides
a
succinct
summary
progress
TMSes
as
electrode
materials
supercapacitor
First,
mechanism
effective
strategies
achieving
discussed.
Subsequently,
recent
process
TMSes‐based
supercapacitors
other
multifunctional
applications
is
summarized.
paper
aims
provide
superiority
their
advances
devices,
promote
development
fields
storage.
