Exploration,
Journal Year:
2024,
Volume and Issue:
4(5)
Published: March 14, 2024
Abstract
Conductive
polymer
hydrogels
(CPHs)
are
gaining
considerable
attention
in
developing
wearable
electronics
due
to
their
unique
combination
of
high
conductivity
and
softness.
However,
the
absence
interactions,
incompatibility
between
hydrophobic
conductive
polymers
(CPs)
hydrophilic
networks
gives
rise
inadequate
bonding
CPs
hydrogel
matrices,
thereby
significantly
impairing
mechanical
electrical
properties
CPHs
constraining
utility
electronic
sensors.
Therefore,
endow
with
good
performance,
it
is
necessary
ensure
a
stable
robust
network
CPs.
Encouragingly,
recent
research
has
demonstrated
that
incorporating
supramolecular
interactions
into
enhances
interaction,
improving
overall
CPH
performance.
comprehensive
review
focusing
on
(SCPH)
for
sensing
applications
currently
lacking.
This
provides
summary
typical
strategies
employed
development
high‐performance
elucidates
SCPHs
closely
associated
Moreover,
discusses
fabrication
methods
classification
SCPH
sensors,
while
also
exploring
latest
application
scenarios
Finally,
challenges
sensors
offers
suggestions
future
advancements.
Small Methods,
Journal Year:
2023,
Volume and Issue:
7(8)
Published: Jan. 26, 2023
As
an
emerging
class
of
2D
materials,
MXene
exhibits
broad
prospects
in
the
field
supercapacitors
(SCs).
However,
working
voltage
MXene-based
SCs
is
relatively
limited
(typically
≤
0.6
V)
due
to
oxidation
electrode
and
decomposition
electrolyte,
ultimately
leading
low
energy
density
device.
To
solve
this
issue,
high-voltage
electrodes
corresponding
matchable
electrolytes
are
developed
urgently
extend
window
SCs.
Herein,
a
comprehensive
overview
systematic
discussion
regarding
effects
(aqueous,
organic,
ionic
liquid
electrolytes),
asymmetric
device
configuration,
material
modification
on
operating
SCs,
presented.
A
deep
dive
taken
into
latest
advances
electrolyte
design,
structure
regulation,
mechanism
Last,
future
perspectives
their
possible
development
directions
outlined
discussed
depth,
providing
new
insights
for
rational
design
realization
advanced
next-generation
electrolytes.
ACS Nano,
Journal Year:
2024,
Volume and Issue:
18(24), P. 15754 - 15768
Published: June 3, 2024
The
multisensory
responsiveness
of
hydrogels
positions
them
as
promising
candidates
for
artificial
skin,
whereas
the
mismatch
modulus
between
soft
and
hard
electrodes
well
poor
adhesion
conductance
at
interface
greatly
impairs
stability
electronics
devices.
Herein,
we
propose
an
in
situ
postprocessing
approach
utilizing
electrochemical
reactions
metals
(Zn,
etc.)
to
synergistically
achieve
strong
hydrogel-electrode
interface,
low
interfacial
impedance,
local
strain
isolation
due
structural
densification
hydrogel
network.
mechanism
is
that
Zn
electrochemically
oxidizes
Exploration,
Journal Year:
2024,
Volume and Issue:
4(5)
Published: March 14, 2024
Abstract
Conductive
polymer
hydrogels
(CPHs)
are
gaining
considerable
attention
in
developing
wearable
electronics
due
to
their
unique
combination
of
high
conductivity
and
softness.
However,
the
absence
interactions,
incompatibility
between
hydrophobic
conductive
polymers
(CPs)
hydrophilic
networks
gives
rise
inadequate
bonding
CPs
hydrogel
matrices,
thereby
significantly
impairing
mechanical
electrical
properties
CPHs
constraining
utility
electronic
sensors.
Therefore,
endow
with
good
performance,
it
is
necessary
ensure
a
stable
robust
network
CPs.
Encouragingly,
recent
research
has
demonstrated
that
incorporating
supramolecular
interactions
into
enhances
interaction,
improving
overall
CPH
performance.
comprehensive
review
focusing
on
(SCPH)
for
sensing
applications
currently
lacking.
This
provides
summary
typical
strategies
employed
development
high‐performance
elucidates
SCPHs
closely
associated
Moreover,
discusses
fabrication
methods
classification
SCPH
sensors,
while
also
exploring
latest
application
scenarios
Finally,
challenges
sensors
offers
suggestions
future
advancements.
