Journal of the American Chemical Society,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Feb. 7, 2025
Escalating
carbon
dioxide
(CO2)
emissions
have
intensified
the
greenhouse
effect,
posing
a
significant
long-term
threat
to
environmental
sustainability.
Direct
air
capture
(DAC)
has
emerged
as
promising
approach
achieving
net-zero
future,
which
offers
several
practical
advantages,
such
independence
from
specific
CO2
emission
sources,
economic
feasibility,
flexible
deployment,
and
minimal
risk
of
leakage.
The
design
optimization
DAC
sorbents
are
crucial
for
accelerating
industrial
adoption.
Metal-organic
frameworks
(MOFs),
with
high
structural
order
tunable
pore
sizes,
present
an
ideal
solution
strong
guest-host
interactions
under
trace
conditions.
This
perspective
highlights
recent
advancements
in
using
MOFs
DAC,
examines
molecular-level
effects
water
vapor
on
capture,
reviews
data-driven
computational
screening
methods
develop
molecularly
programmable
MOF
platform
identifying
optimal
sorbents,
discusses
scale-up
cost
DAC.
Chemical Society Reviews,
Journal Year:
2024,
Volume and Issue:
53(22), P. 10800 - 10826
Published: Jan. 1, 2024
This
review
provides
a
guideline
for
the
rational
design
of
metal–phenolic
network
(MPN)
composites—which
are
fabricated
from
MPN
and
one
or
more
functional
components
(
e.g.
,
drugs,
proteins)—for
various
applications
across
diverse
disciplines.
ACS Nano,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Jan. 3, 2025
This
perspective
highlights
the
transformative
potential
of
Metal-Organic
Frameworks
(MOFs)
in
environmental
and
healthcare
sectors.
It
discusses
work
that
has
advanced
beyond
technology
readiness
levels
>4
including
applications
capture,
storage,
conversion
gases
to
value
added
products.
showcases
efforts
most
salient
MOFs
which
have
been
performed
at
a
great
cadence,
enabled
by
federal
government,
large
companies,
startups
commercialize
these
technologies
despite
facing
significant
challenges.
article
also
forecasts
role
nanoscale
healthcare,
strides
toward
personalized
medicine,
advocating
for
their
use
custom-tailored
drug
delivery
systems.
Finally
we
underscore
acceleration
MOF
research
development
through
integration
machine
learning
AI,
positioning
as
versatile
tools
poised
address
global
sustainability
health
Journal of the American Chemical Society,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Feb. 7, 2025
Escalating
carbon
dioxide
(CO2)
emissions
have
intensified
the
greenhouse
effect,
posing
a
significant
long-term
threat
to
environmental
sustainability.
Direct
air
capture
(DAC)
has
emerged
as
promising
approach
achieving
net-zero
future,
which
offers
several
practical
advantages,
such
independence
from
specific
CO2
emission
sources,
economic
feasibility,
flexible
deployment,
and
minimal
risk
of
leakage.
The
design
optimization
DAC
sorbents
are
crucial
for
accelerating
industrial
adoption.
Metal-organic
frameworks
(MOFs),
with
high
structural
order
tunable
pore
sizes,
present
an
ideal
solution
strong
guest-host
interactions
under
trace
conditions.
This
perspective
highlights
recent
advancements
in
using
MOFs
DAC,
examines
molecular-level
effects
water
vapor
on
capture,
reviews
data-driven
computational
screening
methods
develop
molecularly
programmable
MOF
platform
identifying
optimal
sorbents,
discusses
scale-up
cost
DAC.
