Formation of Hydrocarbons and Carbon Oxides in MXene Reactions with Water under Varying Oxidative Conditions
Nanoscale,
Год журнала:
2025,
Номер
unknown
Опубликована: Янв. 1, 2025
This
study
explores
the
environmental
stability
of
MXenes,
revealing
formation
higher
hydrocarbons
and
carbon
oxides.
It
highlights
methane
dominance
under
reducing
conditions
oxide
production
oxidative
environments.
Язык: Английский
Flexible humidity sensor with high responsiveness based on interlayer synergistic modification of MXene for physiological detection and soil monitoring
Chemical Engineering Journal,
Год журнала:
2025,
Номер
unknown, С. 160572 - 160572
Опубликована: Фев. 1, 2025
Язык: Английский
Anti-drying, anti-freezing and super-elastic MXene/gelatin hydrogels for electromagnetic shielding and pressure sensing
Materials Today Physics,
Год журнала:
2025,
Номер
unknown, С. 101709 - 101709
Опубликована: Март 1, 2025
Язык: Английский
Wearable Hydrogels for Personal Protection Applications
Macromolecular Rapid Communications,
Год журнала:
2025,
Номер
unknown
Опубликована: Март 26, 2025
As
the
Internet
of
Things
and
artificial
intelligence
technologies
have
advanced,
wearable
technology
has
attracted
significant
attention
from
academia
industry.
Hydrogel
already
received
much
as
an
emerging
candidate
material
for
devices
due
to
its
unique
3D
network
structure,
excellent
biocompatibility,
soft
stretchability.
It
is
aimed
here
provide
a
comprehensive
overview
development
hydrogels
applications.
Here,
synthetic
methods
currently
employed
in
are
reviewed
first,
including
physical
crosslinking,
chemical
multiple
crosslinking.
Then,
strategies
optimizing
performance
summarized
perspectives
mechanical
properties,
electrical
thermal
other
characteristics
such
self-healing,
self-adhesion.
The
final
section
discusses
latest
advances
application
personal
protection,
current
shortcomings
challenges.
it
innovative
insights
further
this
field
by
summarizing
research
hotspots
cutting-edge
issues
hydrogels.
Язык: Английский
Recent Advances in MXene-Hydrogel Composites: Nanoarchitectonics and Environmental Applications
Krishnakanth Chithari,
Saumya Ranjan Pradhan,
Ramadevi Suguru Pathinti
и другие.
Journal of environmental chemical engineering,
Год журнала:
2025,
Номер
unknown, С. 116345 - 116345
Опубликована: Март 1, 2025
Язык: Английский
Enhanced Mechanical Properties and Sensing Performance of MXene‐Based Dual‐Crosslinked Hydrogel via EGCG Coating and Dynamic Covalent Bond
Small,
Год журнала:
2025,
Номер
unknown
Опубликована: Апрель 25, 2025
Abstract
MXenes
hold
great
promise
for
flexible
sensors
due
to
their
outstanding
electrical
and
mechanical
properties.
However,
practical
application
in
aqueous
environments
is
often
compromised
by
oxidation
susceptibility.
Here,
epigallocatechin
gallate
(EGCG),
a
naturally
derived
compound
introduced,
as
protective
coating
Ti₃C₂T
x
MXene
nanosheets.
The
catechol
groups
EGCG
form
strong
hydrogen
bonds
with
MXene,
significantly
enhancing
its
resistance
up
40
days.
By
incorporating
EGCG‐coated
(MXene@EGCG)
dual‐crosslinked
hybrid
network,
tough
hydrogel
exceptional
properties,
including
enhanced
compressibility
(>95%),
high
compressive
strength
(5.43
MPa),
minimal
residual
strain
(<1%),
rapid
recovery
within
seconds
developed.
Furthermore,
the
exhibits
superior
sensing
capabilities
gauge
factor
exceeding
10
stretch
of
3.72.
This
well‐designed
structure
also
endows
it
low
degree
hysteresis
sensing.
In
vitro
experiments
confirm
biocompatibility,
desired
self‐adhesion
utility
platform.
approach
pioneers
versatile
transformative
strategy
stability
engineerability,
unlocking
new
possibilities
fabricating
high‐performance
hydrogel‐based
capable
effectively
dynamic
strains,
which
may
find
broad
applications
fields
multifunctional
bioelectronics.
Язык: Английский
Recent Progress in High‐performance Flexible Pressure Sensors: Materials, Design, Fabrication, and Applications
Advanced Materials Technologies,
Год журнала:
2025,
Номер
unknown
Опубликована: Апрель 26, 2025
Abstract
Flexible
pressure
sensors
hold
significant
potential
for
applications
in
health
monitoring,
human‐machine
interaction,
electronic
skin,
and
artificial
intelligence
due
to
their
high
sensitivity,
flexibility,
lightweight,
ease
of
signal
acquisition.
In
recent
years,
extensive
research
into
sensor
materials,
structures,
manufacturing
technologies
has
led
the
development
various
high‐performance
flexible
sensors.
Currently,
optimizing
sensing
performance
involves
selecting
appropriate
functional
designing
deformable
employing
high‐precision
techniques.
This
paper
reviews
advancements
sensors,
focusing
on
mechanisms,
microstructure
design,
technologies,
application
fields.
First,
mechanisms
operating
different
modes
are
introduced,
several
widely
used
materials
discussed.
Particular
attention
is
given
role
geometric
design
enhancing
performance.
Next,
influence
analyzed
summarized.
addition,
emerging
presented.
Finally,
concludes
by
highlighting
prospects
major
challenges
achieving
Язык: Английский
From nature to nanotechnology: the synergistic integration of biomimetic nanomaterials and conductive hydrogels for next-generation applications
Nanoscale,
Год журнала:
2025,
Номер
unknown
Опубликована: Янв. 1, 2025
In
recent
years,
double-network
conductive
hydrogels
and
biomimetic
nanomaterials
have
demonstrated
broad
application
prospects
in
fields
such
as
flexible
electronics,
biomedical
engineering,
soft
robotics,
owing
to
their
unique
mechanical
properties,
conductivity,
biocompatibility.
This
paper
systematically
reviews
the
preparation
strategies
for
hydrogels,
including
optimization
innovation
of
methods
physical-chemical
crosslinking,
pure
physical
ionic
conductors
polymer
composites.
Furthermore,
it
delves
into
crucial
role
(0D,
1D,
2D
nanomaterials)
functional
design
hydrogels.
By
mimicking
natural
structures
mechanisms
(such
neuronal
signal
transmission,
skin
perception,
muscle
actuation),
researchers
successfully
developed
high-performance
artificial
muscles,
electronic
skins,
tissue
engineering
scaffolds.
review
also
summarizes
current
research
challenges,
environmental
stability,
biotoxicity,
multi-signal
synergistic
responses,
envisions
future
development
potential
areas
intelligent
sensing,
wearable
devices,
regenerative
medicine.
Язык: Английский