Processes,
Год журнала:
2024,
Номер
12(9), С. 1894 - 1894
Опубликована: Сен. 4, 2024
Technological
advancements
in
nanofibers
and
production
technologies
have
led
to
being
applied
various
applications.
Nanofibers
are
produced
by
a
variety
of
techniques
such
as
electrospinning,
drawing,
self-assembly,
phase
separation,
others.
Electrospinning
is
widely
used
due
its
versatility
scalability.
Nanofiber
other
still
limited
the
laboratory
scale,
hence
dominance
electrospinning.
The
has
seen
them
applications
health,
protection,
clothing,
filtration,
packaging,
electronics.
Their
large
surface
area,
small
diameters,
porous
structures
make
good
materials
these
diverse
fields.
incorporated
with
nanoparticles
enhance
stability.
In
biomedical
applications,
drug
delivery
systems,
wound
healing,
tissue
engineering
because
their
biocompatibility
biodegradability.
fields
like
porosity,
flexibility.
These
properties
also
highly
effective
where
size
area
allow
efficiently
remove
significant
number
contaminants.
Additionally,
utilized
flexible
electronics,
enhancing
comfort
wearable
devices.
Biopolymers
adopted
address
environmental
health
concerns
traditional
nanofiber
materials.
biodegradable
biocompatible;
however,
stability
can
be
affected
conditions.
This
work
highlights
nanofibers,
especially
environmentally
friendly
water
treatment,
technical
textiles.
Chemistry - A European Journal,
Год журнала:
2024,
Номер
30(49)
Опубликована: Июнь 10, 2024
MXenes,
a
class
of
two-dimensional
transition
metal
carbides,
nitrides,
and
carbonitrides,
have
garnered
significant
attention
due
to
their
remarkable
potential
for
energy
storage,
electrocatalysis,
gas
separation
applications.
The
fabrication
processes
MXene
involve
building
up
the
structure
from
constituent
elements
selective
elimination
M-A
bonds
precursor
MAX.
However,
considerable
efforts
are
still
required
design
develop
efficient
MXene-based
technologies.
This
review
article
aims
briefly
analyse
synthesis
methods
employed
production,
ranging
direct
conventional
chemical
wet
etching
approach
more
recent
molten
salt
technique.
highlights
advancements
made
in
achieving
precise
control
over
terminal
groups,
which
is
paramount
tailoring
properties
MXenes
specific
Furthermore,
materials
carbon
capture
applications,
particularly
developing
advanced
adsorbents,
emphasized.
in-depth
examination
techniques
implications
applications
provides
solid
foundation
optimizing
these
promising
materials.
Crystals,
Год журнала:
2024,
Номер
14(3), С. 261 - 261
Опубликована: Март 6, 2024
A
heightened
interest
in
developing
MXene
(Ti3C2Tx)
for
energy
storage
is
evident
binder-free
ink
being
directly
applied
to
current
collector
Ni-foam.
Moreover,
2D
titanium
carbide
MXene,
with
a
few
layers
of
nanostructure,
has
been
prepared
symmetric
supercapacitor
device
applications.
As-prepared
nanosheets
exist
two
forms:
dried
powder
and
ink,
achieved
through
wet-chemical
etching
dimethyl
sulfoxide
delamination
from
the
MAX
(Ti3AlC2)
phase.
This
comparative
study
electrode
devices
involves
(i)
MX-dry
binder/additive
electrodes
(ii)
inks
MX-conductive
inks.
The
surface
morphological
images
pure
MX-powder/ink
display
layers,
material
analysis
reveals
good
crystalline
nature
delaminated
electrochemical
performances
applied/coated
terms
cyclic
voltammetry
(CV)
impedance
spectroscopy
(EIS),
exhibit
galvanostatic
charge–discharge
(GCD)
curves
that
show
high
specific
capacitance
(Csp)
at
105.75
F/g
density
1
A/g.
comparison
active
demonstrated
excellent
cycle
stability.
Hence,
this
work,
we
confirmed
superior
capacitive
behavior
(MX-I)
compared
conductive
additives
polymeric
binders
included
electrodes.
Nigerian Journal of Technological Development,
Год журнала:
2024,
Номер
21(1), С. 94 - 111
Опубликована: Март 11, 2024
Indubitably,
the
combustion
of
fossils
fuels
has
really
hampered
preservation
environment
as
it
raises
content
CO2
in
atmosphere
which
consequentially
results
global
warming.
Adsorption
process
remains
popular
technique
owing
to
its
cost-effectiveness,
faster
reaction
rates
and
flexible
design.
This
review
detailed
research
progress
preparation
modified
zeolite-based
novel
adsorbents
towards
enhanced
capture.
In
addition,
presents
an
overview
on
available
techniques
capturing
mechanism
reaction.
Large
surface
area,
distinctive
mechanical
characteristics
uniform
dispersion
exchangeable
cations
porous
framework
is
prerequisite
for
high
adsorption
capacity
stability
over
zeolite
materials.
Novel
nanostructured
polymeric
composite
materials
seem
promising
because
they
offer
solutions
energy-related
problems
while
also
contributing
environmental
preservation.
It
anticipated
that
this
could
a
conclusive
roadmap
pursuit
cost-effective,
industrially
potent
adsorbent
suited
enhance
Processes,
Год журнала:
2024,
Номер
12(9), С. 1894 - 1894
Опубликована: Сен. 4, 2024
Technological
advancements
in
nanofibers
and
production
technologies
have
led
to
being
applied
various
applications.
Nanofibers
are
produced
by
a
variety
of
techniques
such
as
electrospinning,
drawing,
self-assembly,
phase
separation,
others.
Electrospinning
is
widely
used
due
its
versatility
scalability.
Nanofiber
other
still
limited
the
laboratory
scale,
hence
dominance
electrospinning.
The
has
seen
them
applications
health,
protection,
clothing,
filtration,
packaging,
electronics.
Their
large
surface
area,
small
diameters,
porous
structures
make
good
materials
these
diverse
fields.
incorporated
with
nanoparticles
enhance
stability.
In
biomedical
applications,
drug
delivery
systems,
wound
healing,
tissue
engineering
because
their
biocompatibility
biodegradability.
fields
like
porosity,
flexibility.
These
properties
also
highly
effective
where
size
area
allow
efficiently
remove
significant
number
contaminants.
Additionally,
utilized
flexible
electronics,
enhancing
comfort
wearable
devices.
Biopolymers
adopted
address
environmental
health
concerns
traditional
nanofiber
materials.
biodegradable
biocompatible;
however,
stability
can
be
affected
conditions.
This
work
highlights
nanofibers,
especially
environmentally
friendly
water
treatment,
technical
textiles.
