Trends in Food Science & Technology,
Journal Year:
2023,
Volume and Issue:
138, P. 323 - 338
Published: June 21, 2023
Metal-Organic
Frameworks
(MOFs),
a
relatively
new
category
of
materials
which
came
into
attention
about
two
decades
ago,
have
caught
researchers
across
industrial
sectors
including
food
additives,
flavor,
packaging
and
sensing.
More
than
100,000
such
structures
been
synthesized,
approximately
500,000
theoretically
determined.
However,
most
these
are
synthesized
using
transition
metal
ions
petroleum
derived
ligands
creates
cytotoxicity
sustainability
related
concerns,
respectively.
Additional
challenges
with
MOFs
include
thermal,
moisture,
hydrothermal
stability
as
well
pH
sensitivity,
reusability
scalability.
To
mitigate
the
environmental,
toxicological
utilized
bio-compatible
edible
linkers
polyphenols,
cyclodextrins,
peptides,
amino
acids
etc.
linked
non-toxic
cations
endogenous/intercellular
Zn2+,
Fe2+,
Fe3+
Mg2+,
Ca2+,
K+
among
others.
Other
factors
hinder
real-life
applications
thermal
or
stability,
application
medium,
food-contact
concerns.
This
paper
systematically
provides
an
overview
various
coordination
ability,
acid
dissociation
constant
bond
orbitals
others
links
them
to
reusability.
Various
made
from
edible,
biocompatible,
biological
endogenous
suitable
for
food,
contact
identified.
Structure,
porosity
physical
properties
MOF
families
summarized.
Advances in Colloid and Interface Science,
Journal Year:
2023,
Volume and Issue:
321, P. 103007 - 103007
Published: Sept. 25, 2023
It
is
well
known
that
metal-organic-framework
(MOF)
nanostructures
have
unique
characteristics
such
as
high
porosity,
large
surface
areas,
and
adjustable
biofunctionalities,
so
they
are
ideal
candidates
for
developing
drug
delivery
systems
(DDSs)
theranostic
platforms
in
cancer
treatment.
Despite
the
number
of
MOF
been
discovered,
conventional
MOF-derived
nanosystems
only
a
single
biofunctional
source
poor
colloidal
stability.
Accordingly,
it
has
demonstrated
core-shell
with
good
stability
useful
method
generating
efficient
delivery,
multimodal
imaging,
synergistic
therapeutic
systems.
The
preparation
done
variety
materials,
but
inorganic
nanoparticles
(NPs)
found
to
be
more
effective
imaging-guided
tumor
Herein,
we
aimed
overview
synthesis
NPs@MOF
followed
by
application
MOFs
derived
from
magnetic,
quantum
dots
(QDs),
gold
(Au),
gadolinium
(Gd)
NPs
Afterwards,
surveyed
different
factors
affecting
prolonged
therapy,
cellular
uptake,
biocompatibility,
biodegradability,
enhanced
permeation
retention
(EPR)
effect
MOFs.
Last
not
least,
discussed
challenges
future
prospects
field.
We
envision
this
article
may
hold
great
promise
providing
valuable
insights
regarding
hybrid
promising
potential
combination
therapy.
Pharmaceutics,
Journal Year:
2023,
Volume and Issue:
15(1), P. 274 - 274
Published: Jan. 12, 2023
Antimicrobial
resistance
(AMR)
is
a
growing
global
crisis
with
an
increasing
number
of
untreatable
or
exceedingly
difficult-to-treat
bacterial
infections,
due
to
their
existing
drugs.
It
predicted
that
AMR
will
be
the
leading
cause
death
by
2050.
In
addition
ongoing
efforts
on
preventive
strategies
and
infection
control,
there
research
towards
development
novel
vaccines,
antimicrobial
agents,
optimised
diagnostic
practices
address
AMR.
However,
developing
new
therapeutic
agents
medicines
can
lengthy
process.
Therefore,
parallel
worldwide
effort
develop
materials
for
drug
delivery
improve
efficacy
minimise
Examples
such
include
functionalisation
surfaces
so
they
become
self-disinfecting
non-fouling,
nanoparticles
promising
properties
attributed
ability
damage
numerous
essential
components
pathogens.
A
relatively
class
materials,
metal-organic
frameworks
(MOFs),
also
being
investigated
act
as
carriers
because
ultrahigh
porosity
modular
structures,
which
engineered
control
mechanism
loaded
Biodegradable
polymers
have
been
found
show
applications
carriers;
and,
recently,
several
studies
reported
drugs
using
composites
MOF
biodegradable
polymers.
This
review
article
reflects
MOFs
polymer-MOF
composites,
drugs,
studied
provides
overview
state
art
in
this
highly
topical
area
research.
Trends in Food Science & Technology,
Journal Year:
2023,
Volume and Issue:
138, P. 323 - 338
Published: June 21, 2023
Metal-Organic
Frameworks
(MOFs),
a
relatively
new
category
of
materials
which
came
into
attention
about
two
decades
ago,
have
caught
researchers
across
industrial
sectors
including
food
additives,
flavor,
packaging
and
sensing.
More
than
100,000
such
structures
been
synthesized,
approximately
500,000
theoretically
determined.
However,
most
these
are
synthesized
using
transition
metal
ions
petroleum
derived
ligands
creates
cytotoxicity
sustainability
related
concerns,
respectively.
Additional
challenges
with
MOFs
include
thermal,
moisture,
hydrothermal
stability
as
well
pH
sensitivity,
reusability
scalability.
To
mitigate
the
environmental,
toxicological
utilized
bio-compatible
edible
linkers
polyphenols,
cyclodextrins,
peptides,
amino
acids
etc.
linked
non-toxic
cations
endogenous/intercellular
Zn2+,
Fe2+,
Fe3+
Mg2+,
Ca2+,
K+
among
others.
Other
factors
hinder
real-life
applications
thermal
or
stability,
application
medium,
food-contact
concerns.
This
paper
systematically
provides
an
overview
various
coordination
ability,
acid
dissociation
constant
bond
orbitals
others
links
them
to
reusability.
Various
made
from
edible,
biocompatible,
biological
endogenous
suitable
for
food,
contact
identified.
Structure,
porosity
physical
properties
MOF
families
summarized.
