Journal of Pharmaceutical Investigation,
Journal Year:
2024,
Volume and Issue:
54(6), P. 751 - 783
Published: Aug. 2, 2024
Abstract
Background
Nanometal-organic
frameworks
(nano-MOFs),
which
exhibit
distinctive
features,
such
as
controlled
release
mechanisms,
stimuli-responsive
behaviors,
and
sustained
drug
profiles,
have
emerged
promising
candidates
for
next-generation
delivery
systems.
Area
covered
This
review
outlines
the
impact
of
nano-MOFs
in
biomedical
applications,
emphasizing
their
potential
targeted
through
active
strategies
biocompatibility
considerations.
Expert
opinion
The
versatility
tunability
pave
way
personalized
medicine,
allowing
tailored
formulations
to
meet
individual
patient
needs.
Despite
transformative
potential,
challenges
remain
terms
stability,
toxicity
assessment,
standardization.
As
progress
from
laboratory
research
clinical
trials,
they
present
a
paradigm
shift
delivery,
offering
precision
medicine
solutions
theranostic
platforms.
future
holds
promise
use
revolutionize
ushering
an
era
effective
therapeutic
interventions.
Polymers,
Journal Year:
2023,
Volume and Issue:
15(22), P. 4443 - 4443
Published: Nov. 17, 2023
Huge
energy
consumption
and
running
out
of
fossil
fuels
has
led
to
the
advancement
renewable
sources
power,
including
solar,
wind,
tide.
Among
them,
solar
cells
have
been
well
developed
with
significant
achievement
silicon
panels,
which
are
popularly
used
as
windows,
rooftops,
public
lights,
etc.
In
order
advance
application
cells,
a
flexible
type
is
highly
required,
such
layered
casting
(LCSCs).
Organic
(OSCs),
perovskite
(PSCs),
or
dye-sensitive
(DSSCs)
promising
LCSCs
for
broadening
many
types
surfaces.
would
be
cost-effective,
enable
large-scale
production,
efficient,
stable.
Each
layer
an
LCSC
important
building
complete
structure
cell.
Within
cell
(active
material,
charge
carrier
transport
layer,
electrodes),
hole
layers
(HTLs)
play
role
in
transporting
holes
anode.
Recently,
diverse
HTLs
from
inorganic,
organic,
organometallic
materials
emerged
great
impact
on
stability,
lifetime,
performance
OSC,
PSC,
DSSC
devices.
This
review
summarizes
recent
advances
development
cells.
Perspectives
challenges
HTL
improvement
also
highlighted.
Journal of environmental chemical engineering,
Journal Year:
2024,
Volume and Issue:
12(5), P. 113403 - 113403
Published: June 24, 2024
Novel
zinc-doped
Metal-Organic
Framework
based
on
MIL53(Fe)
(Zn-MIL53(Fe))
has
been
successfully
synthesised
in
one-step,
exhibiting
dual
applications
as
adsorbent
and
catalyst.
Initially,
the
adsorption
capacity
of
Zn-MIL53(Fe)
for
removing
Rhodamine
B
was
assessed
through
kinetic
isotherm
studies.
The
bimetallic
variant
exhibited
superior
performance,
showcasing
enhanced
capabilities,
particularly
context
its
physical
interaction
under
natural
pH.
After
that,
catalytic
activity
both
materials
evaluated
to
generate
sulphate
radicals
by
activating
PeroxyMonoSulphate
(PMS).
It
also
demonstrated
that
best
being
optimised
using
response
surface
methodology
degradation
(0.11
mM
PMS
43.2
mg
Zn-MIL53(Fe)).
Under
optimal
conditions,
favourable
outcomes
were
attained,
facilitating
B,
Fluoxetine,
Sulfamethoxazole
93,
99,
75%,
respectively.
Furthermore,
operational
stability
verified,
it
remains
structurally
catalytically
intact
after
different
cycles.
Journal of Pharmaceutical Investigation,
Journal Year:
2024,
Volume and Issue:
54(6), P. 751 - 783
Published: Aug. 2, 2024
Abstract
Background
Nanometal-organic
frameworks
(nano-MOFs),
which
exhibit
distinctive
features,
such
as
controlled
release
mechanisms,
stimuli-responsive
behaviors,
and
sustained
drug
profiles,
have
emerged
promising
candidates
for
next-generation
delivery
systems.
Area
covered
This
review
outlines
the
impact
of
nano-MOFs
in
biomedical
applications,
emphasizing
their
potential
targeted
through
active
strategies
biocompatibility
considerations.
Expert
opinion
The
versatility
tunability
pave
way
personalized
medicine,
allowing
tailored
formulations
to
meet
individual
patient
needs.
Despite
transformative
potential,
challenges
remain
terms
stability,
toxicity
assessment,
standardization.
As
progress
from
laboratory
research
clinical
trials,
they
present
a
paradigm
shift
delivery,
offering
precision
medicine
solutions
theranostic
platforms.
future
holds
promise
use
revolutionize
ushering
an
era
effective
therapeutic
interventions.
