Silicone Ionic Liquid-Based Hydrogel for Flexible Strain Sensors with Intrinsically Antifreezing Property
Yushu Xu,
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Yanru Chen,
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Xiaolei Guo
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et al.
ACS Applied Polymer Materials,
Journal Year:
2025,
Volume and Issue:
unknown
Published: March 18, 2025
Language: Английский
Robust and Recyclable Poly(urethane-urea) Ionogels with Noncovalent Cross-linkings for Flexible Strain Sensors
Hao Chen,
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Jiawei Wang,
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Chenlin Pan
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et al.
ACS Applied Polymer Materials,
Journal Year:
2025,
Volume and Issue:
unknown
Published: April 18, 2025
Language: Английский
Bioinspired Liquid‐Free Ion‐Conductive Elastomers with Ultrahigh Mechanical Strength and Excellent Ionic Conductivity for Multifunctional Flexible Sensing Applications
Zequan Li,
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Jingjing Tang,
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Xuwei Wang
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et al.
Advanced Science,
Journal Year:
2025,
Volume and Issue:
unknown
Published: April 28, 2025
Abstract
Liquid‐free
ion‐conductive
elastomers
with
excellent
mechanical
and
electrical
conductivity
are
widely
used
in
flexible
sensors,
wearable
devices,
soft
touch
screens,
supercapacitors.
However,
the
inherent
contradiction
between
properties
often
limits
development
of
liquid‐free
elastomers.
Therefore,
preparation
both
high
ionic
remains
a
major
challenge.
In
this
study,
polyurethane
elastomer
multiple
crosslinking
microphase‐separated
structures
were
designed,
inspired
by
“brick
wall”
structure
pearl
layer.
A
polyurethane‐based
strength
outstanding
ion‐conducting
was
prepared
introducing
lithium
bis(trifluoromethane)sulfoximide
(LiTFSI)
into
elastomer.
FLICE‐110%
had
(5.46
MPa),
exceptional
elongation
at
break
(1213%),
(3.29
×
10
−4
S
cm
−1
),
fracture
energy
(6.25
kJ
m
−2
).
Flexible
sensors
based
on
have
realized
applications
multi‐channel
strain
remote‐controlled
robots.
addition,
we
successfully
recovered
LiTFSI
from
The
these
will
be
expected
to
show
wide
range
skin,
robotics,
human‐machine
interactions.
Language: Английский
Development of an Ionic Conductive Elastomer from the Photocopolymerization of a Ternary Polymerizable Deep Eutectic Solvent for Human Motions Sensing
Zhengyang Qian,
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Chenlin Pan,
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Hao Chen
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et al.
Macromolecular Rapid Communications,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Nov. 15, 2024
Polymerizable
deep
eutectic
solvents
(PDES)
represent
a
novel
class
of
ionic
liquids
characterized
by
the
presence
polymerizable
groups
in
their
hydrogen-bond
donor
or
acceptor
components.
Within
realm
flexible
electronics,
PDES
is
emerged
as
promising
material
for
fabrication
sensors
that
exhibit
both
flexibility
and
stretchability.
This
research
employs
UV-initiated
photocopolymerization
ternary
composed
choline
chloride
(ChCl),
2-hydroxyethyl
acrylate
(HEA),
itaconic
acid
(IA),
to
synthesize
an
conductive
elastomer
(ICE)
boasts
desirable
comprehensive
performances,
which
can
be
controlled
meticulously
adjusting
ratios
these
The
process
streamlined
efficient,
utilizing
cost-effective
eco-friendly
materials.
exhibits
favorable
conductivity
(1.70
×
10
Language: Английский