RSC Advances,
Journal Year:
2024,
Volume and Issue:
14(41), P. 30201 - 30229
Published: Jan. 1, 2024
Recently,
metal-organic
frameworks
(MOFs)
have
attracted
much
attention
as
versatile
materials
for
drug
delivery
and
personalized
medicine.
MOFs
are
porous
structures
made
up
of
metal
ions
coupled
with
organic
ligands.
This
review
highlights
the
synthesis
techniques
used
to
design
specific
features
such
surface
area
pore
size,
encapsulation
within
not
only
improves
their
stability
solubility
but
also
allows
controlled
release
kinetics,
which
therapeutic
efficacy
minimizes
adverse
effects.
Furthermore,
it
discusses
challenges
potential
advantages
MOF-based
delivery,
MOF
stability,
biocompatibility,
scale-up
production.
With
further
advancements
in
synthesis,
functionalization
techniques,
understanding
interactions
using
biological
systems,
can
significant
promise
expanding
medicine
improving
patient
outcomes.
Frontiers in Chemistry,
Journal Year:
2024,
Volume and Issue:
12
Published: May 13, 2024
Nano
compounds,
especially
metal-organic
frameworks
(MOFs),
have
significant
properties.
Among
the
most
important
properties
of
these
which
depend
on
their
specific
surface
area
and
porosity,
are
biological
properties,
such
as
anticancer
antibacterial
In
this
study,
a
new
titanium/BTB
framework
(Ti/BTB-MOF)
was
synthesized
by
using
titanium
nitrate
1,3,5-Tris(4-carboxyphenyl)benzene
(BTB)
under
microwave
radiation.
The
structure
Ti/BTB-MOF
characterized
confirmed
X-ray
diffraction
(XRD)
patterns,
photoelectron
spectroscopy
(XPS)
analysis,
Fourier
transform
infrared
(FT-IR)
spectra,
energy-dispersive
(EDAX)
analysis
mapping,
scanning
electron
microscope
(SEM)
images,
thermogravimetric
(TGA)
curves,
Brunauer-Emmett-Teller
(BET)
analysis.
Polymers,
Journal Year:
2024,
Volume and Issue:
16(12), P. 1742 - 1742
Published: June 19, 2024
In
the
current
research,
we
prepared
a
polymeric
framework,
{[Cu(C2O4)(C10H8N2)]·H2O·0.67(CH3OH)]}n
(1)
(where
C2O4
=
oxalic
acid;
C10H8N2
2,2-bipyridine),
and
explored
this
compound
for
adsorption
of
methylene
blue
(MB)
methyl
orange
(MO).
The
crystal
structure
consists
Cu(ox)(bpy)
unit
connected
via
oxalate
to
form
1D
chain.
This
chain
has
capacities
194.0
167.3
mg/g
MB
MO,
respectively.
removal
rate
is
estimated
be
77.6%
66.9%
plausible
mechanisms
are
electrostatic,
π-π
interaction,
OH-π
interaction
dye
stickiness.
adsorbent
surface
exhibits
negative
charge
that
produces
electrostatic
resulting
in
excellent
efficiency
at
pH
7
8.
pseudo-first-order
kinetic
model
selected
MO
on
adsorbent.
reported
remarkable
sorption
organic
dyes
can
useful
wastewater
treatment.
International Journal of Molecular Sciences,
Journal Year:
2025,
Volume and Issue:
26(6), P. 2633 - 2633
Published: March 14, 2025
Cancer
is
one
of
the
main
causes
death
worldwide.
Chemotherapy,
radiotherapy
and
surgery
are
currently
treatments
choice
for
cancer.
However,
conventional
therapies
have
their
limitations,
such
as
non-specificity,
tumor
recurrence
toxicity
to
target
cells.
Recently,
nanomaterials
been
considered
therapeutic
agents
against
This
mainly
due
unique
optical
properties,
biocompatibility,
large
surface
area
nanoscale
size.
These
properties
crucial
they
can
affect
biocompatibility
uptake
by
cell,
reducing
efficacy.
because
nanoparticles
be
functionalized
with
biomolecules,
become
more
biocompatible,
which
improves
uptake,
specifically
targeted
cancer
cells,
anticancer
activity.
In
this
review,
we
summarize
some
recent
studies
in
aim
increasing
efficacy
treatment.
Royal Society of Chemistry eBooks,
Journal Year:
2025,
Volume and Issue:
unknown, P. 235 - 258
Published: April 4, 2025
Fuels
and
energy
demand
rely
heavily
on
non-renewable
resources,
particularly
fossil
fuels,
which
leads
to
environmental
concerns.
The
alarming
increase
in
air
pollution
levels
owing
increased
industrialization,
especially
urban
areas,
has
led
the
development
of
advanced
quality
management
technologies.
Traditional
methods,
such
as
sieve
filtration
adsorption
processes,
have
limitations,
prompting
exploration
alternative
approaches
for
pollutant
removal.
In
latest
efforts
reduce
global
warming,
two-dimensional
(2D)
materials
been
identified
key
players
their
effective
role
carbon
dioxide
(CO2)
capture
conversion
value
added
products.
Among
these
materials,
2D
nanomaterials
composites
offer
a
promising
solution
due
unique
structural
surface
properties.
this
chapter,
recent
advances
field
nanomaterial
removal
are
critically
reviewed.
potential
capturing
converting
CO2,
major
greenhouse
gas
responsible
climate
change,
is
emphasized.
These
endowed
with
specific
functional
groups
order
selectively
adsorb
CO2
over
other
gases,
ensuring
high
purity
captured
processes.
Such
also
serve
photoelectrocatalysts
towards
into
valuable
products,
offering
sustainable
approach
utilization.
primary
focus
chapter
various
graphene-based
application
conversion,
showcasing
addressing
pollution.
Finally,
important
future
perspectives
successful
outcomes
outlined.
International Journal of Phytoremediation,
Journal Year:
2024,
Volume and Issue:
26(8), P. 1193 - 1211
Published: Jan. 16, 2024
In
this
work,
green
method
to
synthesize
chromium-doped
zinc
oxide
(ZnO)
nanorods
(NRs)
using
an
aqueous
flower
extract
from
Rhododendron
arboretum
is
explored.
Herein,
ZnO
NRs
were
prepared
with
different
amount
of
chromium
doping,
varied
as
2–10%.
The
synthesized
products
underwent
substantial
analysis
through
X-ray
diffraction
(XRD),
spectroscopic
such
ultraviolet
spectroscopy(UV-Vis)
and
scanning
electron
microscopy
(SEM)
methods.
All
samples
found
have
hexagonal
wurtzite
ZnO,
average
particle
sizes
52.41,
56.6,
54.44,
53.05,
56.99
nm,
respectively,
for
2,
4,
6,
8,
10%
doping
in
NRs.
Cr-doped
exhibited
remarkable
photocatalytic
degradation
activity
cationic
dyes
under
UV-light,
i.e.,
Malachite
Green
Fuchsin
Basic
99.604
99.881%,
respectively
90
min.
reusability
tests
these
also
been
carried
out,
showed
9–11
cycles
85%
efficiency.
addition,
the
high
selectivity
when
experiments
against
mixture
performed.
Photodegradation
kinetics
followed
pseudo-first-order
model.
flower-extract-stabilized
demonstrated
toward
malachite
fuchsin
basic
dyes,
potential
material
pollution
remediation.
