Toxicology Research,
Journal Year:
2024,
Volume and Issue:
14(1)
Published: Dec. 31, 2024
Abstract
Since
the
Industrial
Revolution,
ecological
damage,
ecosystem
disruption,
and
climate
change
acceleration
have
frequently
resulted
from
human
advancement
at
price
of
environment.
Due
to
rise
in
illnesses,
Industry
6.0
calls
for
a
renewed
dedication
sustainability
with
latest
technologies.
Focused
research
creative
solutions
are
needed
achieve
UN
Sustainable
Development
Goals
(SDGs),
especially
3,
9,
13,
14,
15,
17.
A
promising
sustainable
technology
enhancing
healthcare
while
reducing
environmental
effect
is
Metal
Organic
Frameworks
(MOFs).
MOFs
perfect
drug
administration
because
their
high
surface
areas,
adjustable
pore
sizes,
remarkable
drug-loading
capacities.
They
created
by
combining
advanced
artificial
intelligence,
intelligent
manufacturing,
quantum
computing.
Researchers
can
create
functional
groups
or
ligands
that
bind
selectively
target
cells
tissues,
minimizing
off-target
effects,
thanks
distinct
benefits
families
like
MIL,
HKUST,
UiO,
ZIF
etc.
offer
targeted
delivery.
Combining
other
nanomaterials
results
multipurpose
systems
handle
challenging
biomedical
issues.
Despite
its
promise,
there
still
issues
MOFs’
possible
toxicity
long-term
stability
physiological
settings.
To
advance
medicinal
applications,
these
problems
must
be
resolved.
increase
usefulness
medicine
critically
analysing
limitations
putting
up
alternatives.
The
creation
technologies
(additive
manufacturing
etc.)
delivery
prime
example
how
scientific
stewardship
may
coexist
provide
advantageous
both
people
Nanomaterials,
Journal Year:
2024,
Volume and Issue:
14(17), P. 1458 - 1458
Published: Sept. 7, 2024
With
the
utilization
of
nitrophenols
in
manufacturing
various
materials
and
expansion
industry,
have
emerged
as
water
pollutants
that
pose
significant
risks
to
both
humans
environment.
Therefore,
it
is
imperative
convert
into
aminophenols,
which
are
less
toxic.
This
conversion
process
achieved
through
use
noble
metal
nanoparticles,
such
gold,
silver,
copper,
palladium.
The
primary
challenge
with
nanoparticles
lies
their
accumulation
deactivation,
leading
a
decrease
catalyst
activity.
Covalent
organic
frameworks
(COFs)
characterized
by
crystalline
structure,
good
stability,
high
porosity
active
sites.
These
properties
make
them
ideal
substrates
for
enhancing
catalytic
overview
explores
articles
focus
on
synthesis
catalysts
containing
attached
COFs
reduce
aminophenols.
Advanced Sensor Research,
Journal Year:
2025,
Volume and Issue:
unknown
Published: March 2, 2025
Abstract
The
quartz
crystal
microbalance
(QCM)
platform
is
a
high‐performance
sensor
device
in
which
the
change
characteristic
quantity
of
does
not
depend
on
difference
electrical
amount
sensitive
material
but
related
only
to
adsorption
capacity
exposed
material.
Metal–organic
frameworks
(MOFs)/covalent–organic
(COFs),
as
functional
material,
have
unique
physical
and
chemical
properties
are
capable
trapping
adsorbing
gases
large
quantities.
QCM
gas
sensors
based
MOFs
or
COFs
promising
application
CO
2
sensing.
This
work
summarizes
current
research
problems
challenges.
Different
improvement
strategies
concluded
for
sensors'
core
“4S”
characteristics,
that
is,
sensitivity,
selectivity,
response
speed,
stability.
To
provide
some
ideas
suggestions
future
development
MOFs/COFs‐based
carbon
dioxide
sensors.
Reviews in Chemical Engineering,
Journal Year:
2025,
Volume and Issue:
unknown
Published: March 24, 2025
Abstract
This
review
examines
the
application
potential
of
hybrid
MOF-COF
structures
in
fabricating
advanced
membranes
for
gas
separation.
demonstrate
exceptional
separation
performance,
surpassing
Robeson
upper
bound
several
mixtures,
including
H
2
/CH
4
,
CO
/N
and
O
.
Key
findings
indicate
that
thin-film
exhibit
remarkable
selectivity
permeability,
with
some
hybrids
achieving
permeance
values
exceeding
1,000,000
GPU
ideal
factors
over
30.
Additionally,
mixed
matrix
(MMMs)
containing
show
combining
mechanical
robustness
high
efficiency,
despite
challenges
uniform
dispersion.
Future
research
should
prioritize
scaling
up
production
methods,
enhancing
stability
thin
films,
improving
polymer-hybrid
compatibility
MMMs.
Experimental
validation
theoretical
predictions
is
essential
to
address
discrepancies
unlock
full
these
materials.
are
poised
revolutionize
technologies
offer
promising
directions
broader
applications,
catalysis
energy
storage.
Advanced Functional Materials,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Dec. 30, 2024
Abstract
Electron
state
of
catalyst
surface
is
crucial
to
optimize
the
adsorption/intermediate
gas
molecules
during
sensing
reaction.
Herein,
we
develop
an
electron‐dilution
strategy
by
introducing
Pd/Pt
species
into
semiconductor
ZnSe
construct
electron‐deficient
Se
surface,
exhibiting
excellent
H
2
performances.
It
found
that
different
metal
doping
can
induce
remarkable
electric
environment
changes
atoms.
For
example,
compared
with
Pd,
Pt
display
stronger
electronic
dilution
ability
adjacent
X‐ray
photoelectron
spectroscopy
(XPS)
characterizations
further
prove
will
generation
sites,
appearing
a
new
and
high
binding
energy
state.
Furthermore,
density
functional
theory
(DFT)
calculations
show
deficient
sites
on
Pt‐ZnSe
could
reduce
level
anti‐bonding
orbital
filling,
thus
enhancing
stability
Se‐Hads
bond
strengthening
adsorption.
As
result,
based
micro‐electromechanical
systems
(MEMS)
sensors
exhibit
response
value
3.22
10
ppm
at
low
operation
temperature
145
°C.
Inserting
MEMS
array
multifunctional
wireless
device,
it
realize
real‐time
/temperature/humidity
monitoring
cloud
data
transmission
for
hydrogen
agriculture
production,
preserving
storing
crop.
