Advanced Industrial and Engineering Polymer Research,
Journal Year:
2024,
Volume and Issue:
unknown
Published: April 1, 2024
Novel
2D
materials
are
now
at
the
forefront
of
developing
advanced
multifunctional
composite
film
due
to
their
fascinating
properties.
Particularly,
graphene
and
MXene-based
regarded
as
potential
for
structure–function
integration
with
laminated
composites.
As
expected,
high
mass
production
from
low-cost
facile
fabrication
techniques
composites
plays
a
pivotal
role
in
practical
applications.
Herein,
we
have
covered
broad
spectrum
overview,
covering
all
contributions
this
field
summarizing
most
pertinent
literature
available
which
attractive
aircraft
Moreover,
integrated
functions
materials-based
such
sensing
actuation
behaviour,
thermal
conductivity,
electromagnetic
interference
(EMI)
shielding
effectiveness
explored
mechanism
superior
performance
is
detailed.
Some
prevailing
challenges
perspectives
thriving
also
been
critically
discussed.
Energy Conversion and Management X,
Journal Year:
2024,
Volume and Issue:
22, P. 100547 - 100547
Published: Feb. 16, 2024
In
the
modern
era,
inaccessibility
of
safe
drinking
water
has
become
a
hot
issue.
this
regard,
industrial
chemicals
are
one
most
well
known
pollutants
that
disturb
quality
and
make
it
flabby
for
comsumption.
Amongst
these
pollutants,
methylene
blue
is
noxious,
persistent,
oncogenic,
as
posing
severe
risk
to
human
health
environmental
protection.
This
frequently
found
in
natural
reserviors,
which
turn
out
be
hazard
beings
other
organisms.
So,
necessary
introduce
efficient
eco-friendly
techniques
eliminating
organic
dyes
from
wastewater.
To
meet
goal,
photodegradation
been
reliable
approach
removal
dyes.
It
can
completely
mineralize
into
nontoxic
species
cost-effective
way.
article
helps
readers
who
interested
exploring
their
expertise
research
area.
our
study,
we
address
both
fundamental
principles
explore
application
polymer-supported
nanomaterials
pollutant
degradation.
Our
study
addressed
critical
parameters
like
irradiation
time,
oxidants,
scavengers,
pH,
catalyst
dosages,
importantly,
role
reactive
oxygen
degradation
provides
concise
overview
photocatalysis,
including
mechanisms,
reaction
schemes,
end
products
dye
also
discusses
future
outlook
consuming
on
an
scale.
Additionally,
categorizes
approaches
developing
photocatalytic
Nano-Micro Letters,
Journal Year:
2024,
Volume and Issue:
16(1)
Published: June 14, 2024
Abstract
MXene
has
garnered
widespread
recognition
in
the
scientific
community
due
to
its
remarkable
properties,
including
excellent
thermal
stability,
high
conductivity,
good
hydrophilicity
and
dispersibility,
easy
processability,
tunable
surface
admirable
flexibility.
MXenes
have
been
categorized
into
different
families
based
on
number
of
M
X
layers
n+1
n
,
such
as
2
X,
3
4
and,
recently,
5
.
Among
these
families,
particularly
Ti
C
greatly
explored
while
limited
studies
given
synthesis.
Meanwhile,
family
developed
hence,
demanding
a
compilation
evaluated
studies.
Herein,
this
review
provides
systematic
overview
latest
advancements
MXenes,
focusing
their
properties
applications
energy
storage
devices.
The
objective
is
provide
guidance
researchers
fostering
MXene-based
nanomaterials,
not
only
for
devices
but
also
broader
applications.
ACS Applied Nano Materials,
Journal Year:
2024,
Volume and Issue:
7(9), P. 9847 - 9867
Published: May 1, 2024
MXene
Ti3C2Tx
is
a
two-dimensional
(2D)
nanosheet
material
from
the
family
formed
by
selective
etching
of
aluminum
atoms
in
ternary
carbide
Ti3AlC2
sheet.
This
process
results
2D
with
titanium
and
fluorine
on
surface.
has
several
attractive
properties
for
various
applications,
such
as
excellent
electrical
conductivity
mechanical
good
chemical
stability.
also
large
surface
area
can
be
easily
functionalized
introducing
different
groups
onto
its
Some
notable
applications
include
supercapacitors
batteries
owing
to
high
area.
been
explored
catalyst
reactions,
including
hydrogen
evolution
CO2
reduction.
The
main
emphasis
this
review
centered
around
exploring
electrical,
magnetic,
optical
characteristics
MXenes.
Additionally,
it
provides
concise
overview
approaches
used
synthesizing
these
materials,
specifically
top-down
bottom-up
methods.
Furthermore,
thoroughly
examines
significant
MXenes
across
multiple
fields,
encompassing
biology,
water
remediation,
sensors,
catalysis,
energy
storage,
membrane
separation,
wearable
electronics.
considers
challenges
that
arise
when
working
offers
insights
into
potential
future
directions
perspectives
field.
Overall,
promising
widespread
application
research
ongoing.
Advanced Science,
Journal Year:
2024,
Volume and Issue:
11(30)
Published: June 13, 2024
Abstract
With
the
onset
of
5G
era,
wearable
flexible
electronic
devices
have
developed
rapidly
and
gradually
entered
daily
life
people.
However,
vast
majority
research
focuses
on
integration
functions
performance
improvement,
while
ignoring
electromagnetic
hazards
caused
by
devices.
Herein,
3D
double
conductive
networks
are
constructed
through
a
repetitive
vacuum‐assisted
dip‐coating
technique
to
decorate
2D
MXene
1D
silver
nanowires
melamine
foam.
Benefiting
from
unique
porous
structure
multi‐scale
interconnected
frame,
resultant
composite
foam
exhibited
high
electrical
conductivity,
low
density,
superb
interference
shielding
(48.32
dB),
Joule
heating
(up
90.8
°C
under
0.8
V).
Furthermore,
single‐electrode
triboelectric
nanogenerator
(TENG)
with
powerful
energy
harvesting
capability
is
assembled
combining
an
ultra‐thin
Ecoflex
film
polyvinylidene
fluoride
film.
Simultaneously,
foam‐based
TENG
can
also
be
considered
reliable
sensor
for
monitoring
activity
patterns
in
different
parts
human
body.
The
versatility
scalable
manufacturing
high‐performance
foams
will
provide
new
design
ideas
development
next‐generation
