Expert Opinion on Drug Delivery,
Год журнала:
2024,
Номер
21(10), С. 1479 - 1490
Опубликована: Окт. 2, 2024
Nanoparticles
(NPs)
are
widely
used
in
the
pharmaceutical
field
to
treat
various
human
disorders.
Among
these,
lipid-based
NPs
(LNPs),
including
solid
lipid
nanoparticles
(SLN)
and
nanostructured
carriers
(NLC),
favored
for
drug/bioactive
delivery
due
their
high
stability,
biocompatibility,
encapsulation
efficiency,
sustained/controlled
release.
These
properties
make
them
particularly
suitable
as
of
compounds
derived
from
plant
sources.
Abstract
Electrochemical
energy
systems
mark
a
pivotal
advancement
in
the
sector,
delivering
substantial
improvements
over
conventional
systems.
Yet,
major
challenge
remains
deficiency
storage
technology
to
effectively
retain
produced.
Amongst
these
are
batteries
and
supercapacitors,
renowned
for
their
versatility
efficiency,
which
depend
heavily
on
quality
of
electrode
materials.
Metal
oxide
composites,
particular,
have
emerged
as
highly
promising
due
synergistic
effects
that
significantly
enhance
functionality
efficiency
beyond
individual
components.
This
review
explores
application
metal
composites
electrodes
SCs,
focusing
various
material
perspectives
synthesis
methodologies,
including
exfoliation
hydrothermal/solvothermal
processes.
It
also
examines
how
methods
influence
device
performance.
Furthermore,
confronts
challenges
charts
future
directions
composite-based
systems,
critically
evaluating
aspects
such
scalability
synthesis,
cost-effectiveness,
environmental
sustainability,
integration
with
advanced
nanomaterials
electrolytes.
These
factors
crucial
advancing
next-generation
technologies,
striving
performance
while
upholding
sustainability
economic
viability.
Pharmaceuticals,
Год журнала:
2024,
Номер
17(1), С. 126 - 126
Опубликована: Янв. 18, 2024
Resveratrol
is
a
polyphenolic
compound
that
has
gained
considerable
attention
in
the
past
decade
due
to
its
multifaceted
therapeutic
potential,
including
anti-inflammatory
and
anticancer
properties.
However,
efficacy
impeded
by
low
water
solubility,
dose-limiting
toxicity,
bioavailability,
rapid
hepatic
metabolism.
To
overcome
these
hurdles,
various
nanoparticles
such
as
organic
inorganic
nanoparticles,
liposomes,
polymeric
dendrimers,
solid
lipid
gold
zinc
oxide
zeolitic
imidazolate
frameworks,
carbon
nanotubes,
bioactive
glass
mesoporous
were
employed
deliver
resveratrol,
enhancing
against
types
of
cancer.
Resveratrol-loaded
nanoparticle
or
resveratrol-conjugated
administration
exhibits
excellent
potency
compared
free
resveratrol.
This
review
highlights
latest
developments
nanoparticle-based
delivery
systems
for
focusing
on
potential
limitations
associated
with
compound’s
bioavailability
effectiveness.
Abstract
The
growing
population
and
the
unpalatable
ecological
impact
of
exploration
utilization
fossil-based
fuels
have
resulted
in
increased
demand
for
biofuel
as
an
alternative
fuel
engines
power
generation.
global
biodiesel,
a
prominent
member
biofuels
family,
has
continued
to
increase
over
past
decades
with
researchers
devising
various
means
intensify
cost-effective
production.
use
metal
oxide
nanocatalysts
is
one
feasible
strategies
meet
quality
biodiesel.
This
study
reviews
recent
advances
deployment
commonly
used
nanoparticles
such
MgO,
CaO,
TiO
2
,
ZnO,
ZrO
accelerate
sustainable
biodiesel
Converting
conventional
heterogeneous
catalysts
into
enhances
surface
configuration,
chemical
thermal
stability,
porosity,
crystallinity
nanocatalysts.
hasten
transesterification
reaction,
reduces
reaction
temperature
time,
yield.
Biodiesel
synthesized
aid
impeccable
meets
international
standards.
Notwithstanding
few
challenges,
application
engenders
production
contributes
energy
security.
More
innovative
collaborative
studies
are
needed
reduce
ethical,
economic,
infrastructural,
environmental
consequences
usage
nanomaterials
International Journal of Molecular Sciences,
Год журнала:
2024,
Номер
25(19), С. 10519 - 10519
Опубликована: Сен. 29, 2024
There
is
a
growing
interest
in
the
utilization
of
metal
oxide
nanoparticles
as
antimicrobial
agents.
This
review
will
focus
on
titanium
dioxide
(TiO2
NPs),
which
have
been
demonstrated
to
exhibit
high
activity
against
bacteria
and
fungi,
chemical
stability,
low
toxicity
eukaryotic
cells,
therefore
biocompatibility.
Despite
extensive
research
conducted
this
field,
there
currently
no
consensus
how
enhance
efficacy
TiO2
NPs.
The
aim
evaluate
influence
various
factors,
including
particle
size,
shape,
composition,
synthesis
parameters,
well
microbial
type,
antibacterial
NPs
fungi.
Furthermore,
offers
comprehensive
overview
methodologies
employed
characterization
exhibits
weak
dependence
microorganism
species.
A
tendency
towards
increased
observed
with
decreasing
NP
size.
shape
composition
more
pronounced.
most
pronounced
potential
exhibited
by
amorphous
doped
inorganic
compounds.
may
be
specialists
biology,
medicine,
chemistry,
other
related
fields.
Carbon Capture Science & Technology,
Год журнала:
2024,
Номер
11, С. 100200 - 100200
Опубликована: Фев. 20, 2024
Methane
(CH4)
serves
as
a
primary
constituent
of
natural
gas
and
potent
greenhouse
gas.
Catalytic
conversion
CH4
into
H2
presents
promising
avenue
for
mitigating
CO2
emissions
from
direct
combustion,
while
also
facilitating
the
transition
towards
cleaner
energy
sources.
Substantial
efforts
have
been
dedicated
to
enhancing
efficiency
methane
selectivity
hydrogen
in
catalyst
design.
Among
these
endeavors,
core-shell
structured
Ni-based
catalysts
emerged
highly
advantageous
conversion,
with
multitude
benefits
including
high
catalytic
activity,
coking
resistance,
longtime
stability.
In
this
review,
we
provide
an
overview
catalysts.
Furthermore,
synthesis
methods
are
explored.
We
then
delve
myriad
advantages
confer
upon
specifically
emphasizing
their
remarkable
stability
resistance
sintering,
activation
capacity
dry
reforming
methane.
Moreover,
review
comprehensively
outlines
versatile
applications
processes
such
steam
(SRM),
(DRM),
partial
oxidation
(POM),
decomposition
(CMD)
production.
Additionally,
recent
advancements
field
computational
chemistry,
particular
focus
on
density
functional
theory
(DFT)
machine
learning
(ML).
These
techniques
play
pivotal
roles
screening
offer
insights
intricate
reaction
mechanisms
underlying
conversion.
Finally,
summarize
key
findings
forward-looking
perspectives.
This
comprehensive
valuable
reference
realm
production
catalysts,
fostering
deeper
understanding
area.