Materials Horizons,
Год журнала:
2021,
Номер
8(12), С. 3239 - 3265
Опубликована: Янв. 1, 2021
In
the
past
two
decades,
ionic
liquids
(ILs)
have
blossomed
as
versatile
task-specific
materials
with
a
unique
combination
of
properties,
which
can
be
beneficial
for
plethora
different
applications.
The
additional
need
incorporating
ILs
into
solid
devices
led
to
development
new
class
soft-solid
materials,
named
here
iongels.
Nowadays,
iongels
cover
wide
range
mostly
composed
an
IL
component
immobilized
within
matrices
such
polymers,
inorganic
networks,
biopolymers
or
nanoparticles.
This
review
aims
at
presenting
integrated
perspective
on
recent
progress
and
advances
in
this
emerging
type
material.
We
provide
analysis
main
families
highlight
types
these
soft
offering
thermoresponsiveness,
self-healing,
mixed
ionic/electronic
(photo)luminescence,
among
others.
Next,
trends
additive
manufacturing
(3D
printing)
are
presented.
Finally,
their
applications
areas
energy,
gas
separation
(bio)electronics
detailed
discussed
terms
performance,
underpinning
it
structural
features
processing
iongel
materials.
Advanced Functional Materials,
Год журнала:
2023,
Номер
33(36)
Опубликована: Май 14, 2023
Abstract
Rehabilitation
is
necessary
for
the
recovery
of
patients
with
paralysis
caused
by
stroke
and
muscle
atrophy.
Wearable
electronics
can
provide
feedback
on
physical
training
facilitate
healthcare.
However,
most
existing
wearable
are
difficult
to
maintain
a
conformal
skin‐device
interface.
Additionally,
use
non‐degradable
electronic
materials
associated
environmental
risks.
Herein,
ionogels
biodegradation
shape‐memory
properties
as
eco‐friendly
geometry‐adaptive
rehabilitation
proposed.
The
enabled
incorporating
polycaprolactone
segments
into
ionogel
matrix.
Moreover,
ionogel‐based
be
certain
joints
shape
programming,
stable
reproducible
real‐time
signals
reflecting
joint
movements
during
long‐term
assisted
robotic
glove,
facilitating
carers
assess
efficacy
choose
an
appropriate
scheme.
This
study
demonstrates
potential
biodegradable
green
adaptive
robot‐assisted
rehabilitation.
ACS Materials Letters,
Год журнала:
2023,
Номер
5(10), С. 2621 - 2628
Опубликована: Авг. 28, 2023
One-step
preparation
of
supramolecular
eutectogels
(SEGs)
with
water
resistance,
transparency,
underwater
self-healing,
self-adhesion,
and
full
recyclability
using
a
simple
green
process
is
intriguing
but
also
challenging.
Here,
novel
SEG
prepared
by
in
situ
ring-opening
polymerization
thioctic
acid
(TA)
polymerizable
hydrophobic
deep
eutectic
solvent
(DES).
Further
depolymerization
poly(TA)
achieved
synergistic
interaction
between
the
monomer
DES
components,
resulting
exhibiting
highly
optical
extreme
stretchability,
recyclability.
Moreover,
multiple
dynamic
interactions
enable
self-healing
self-adhesive
processes
to
be
easily
realized
even
underwater.
Given
these
comprehensive
capabilities,
SEGs
are
used
as
external
encapsulation
layers
for
liquid
metals
prepare
stretchable
composite
wires
electromyographic
signal
monitoring.
The
methodology
provides
new
route
recyclable
integrated
electronic
components
adhesives.
Journal of Materials Chemistry C,
Год журнала:
2024,
Номер
12(30), С. 11265 - 11284
Опубликована: Янв. 1, 2024
This
review
highlights
the
recent
progress
on
polymerizable
deep
eutectic
solvents
(PDES)
and
polyDES
as
liquid-free
ionic
elastomers
in
bioelectronics
discusses
future
directions
how
these
functional
polymers
can
expand
field.
Materials Horizons,
Год журнала:
2021,
Номер
8(12), С. 3239 - 3265
Опубликована: Янв. 1, 2021
In
the
past
two
decades,
ionic
liquids
(ILs)
have
blossomed
as
versatile
task-specific
materials
with
a
unique
combination
of
properties,
which
can
be
beneficial
for
plethora
different
applications.
The
additional
need
incorporating
ILs
into
solid
devices
led
to
development
new
class
soft-solid
materials,
named
here
iongels.
Nowadays,
iongels
cover
wide
range
mostly
composed
an
IL
component
immobilized
within
matrices
such
polymers,
inorganic
networks,
biopolymers
or
nanoparticles.
This
review
aims
at
presenting
integrated
perspective
on
recent
progress
and
advances
in
this
emerging
type
material.
We
provide
analysis
main
families
highlight
types
these
soft
offering
thermoresponsiveness,
self-healing,
mixed
ionic/electronic
(photo)luminescence,
among
others.
Next,
trends
additive
manufacturing
(3D
printing)
are
presented.
Finally,
their
applications
areas
energy,
gas
separation
(bio)electronics
detailed
discussed
terms
performance,
underpinning
it
structural
features
processing
iongel
materials.
