ACS Applied Materials & Interfaces,
Год журнала:
2024,
Номер
16(35), С. 45830 - 45860
Опубликована: Авг. 23, 2024
Metal–organic
frameworks
(MOFs)
have
attained
broad
research
attention
in
the
areas
of
sensors,
resistive
memories,
and
optoelectronic
synapses
on
merits
their
intriguing
physical
chemical
properties.
In
this
review,
recent
progress
synthesis
MOFs
electronic
applications
is
introduced
discussed.
Initially,
crystal
structures
properties
encompassing
optical,
electrical,
are
discussed
brief.
Subsequently,
advanced
methods
for
introduced,
categorized
into
hydrothermal
approach,
microwave
synthesis,
mechanochemical
electrochemical
deposition.
After
that,
various
roles
widespread
applications,
including
sensing,
information
storage,
synapses,
machine
learning,
artificial
intelligence,
discussed,
highlighting
versatility
innovative
solutions
they
provide
to
long-standing
challenges.
Finally,
an
outlook
remaining
challenges
a
future
perspective
proposed.
Bioactive Materials,
Год журнала:
2022,
Номер
23, С. 129 - 155
Опубликована: Ноя. 11, 2022
One
of
the
challenges
posed
by
current
antibacterial
therapy
is
that
expanded
and
massive
use
antibiotics
endows
bacteria
with
ability
to
resist
almost
all
kinds
antibiotics.
Therefore,
developing
alternative
strategies
for
efficient
treatment
urgently
needed.
Antibacterial
gas
has
attracted
much
attention
in
past
decade.
Nitric
oxide
(NO),
carbon
monoxide
(CO),
sulfur
dioxide
(SO2),
hydrogen
sulfide
(H2S),
(H2)
are
not
only
known
as
endogenous
signaling
molecules,
but
also
play
critical
roles
many
pathological
processes.
These
gases
considered
attractive
bactericidal
agents
because
they
able
kill
bacteria,
disperse
biofilms,
promote
bacteria-infected
wound
healing
while
avoiding
resistance.
In
this
review,
we
discuss
properties
these
gases,
well
recent
advances
gas-involving
systems
antibacterial,
antibiofilm,
applications.
Moreover,
summarize
various
donors
utilized
treatment.
We
hope
review
will
shed
new
light
on
future
design
applications
advanced
therapy.
With
the
advantages
of
diverse
structures,
tunable
enzymatic
activity,
and
high
stability,
nanozymes
are
widely
used
in
medicine,
chemistry,
food,
environment,
other
fields.
As
an
alternative
to
traditional
antibiotics,
attract
more
attention
from
scientific
researchers
recent
years.
Developing
nanozymes-based
antibacterial
materials
opens
up
a
new
avenue
for
bacterial
disinfection
sterilization.
In
this
review,
classification
their
mechanisms
discussed.
The
surface
composition
critical
efficacy,
which
can
be
tailored
enhance
both
binding
activity.
On
one
hand,
modification
enables
targeting
bacteria
that
improves
performance
including
biochemical
recognition,
charge,
topography.
modulated
achieve
enhanced
single
nanozyme-mediated
synergistic
multiple
nanozymes-mediated
cascade
catalytic
applications.
addition,
current
challenges
future
prospects
tailoring
applications
This
review
provide
insights
into
design
treatments.
Nanomaterials,
Год журнала:
2024,
Номер
14(3), С. 244 - 244
Опубликована: Янв. 23, 2024
A
nanozyme
is
a
nanoscale
material
having
enzyme-like
properties.
It
exhibits
several
superior
properties,
including
low
preparation
cost,
robust
catalytic
activity,
and
long-term
storage
at
ambient
temperatures.
Moreover,
high
stability
enables
repetitive
use
in
multiple
reactions.
Hence,
it
considered
potential
replacement
for
natural
enzymes.
Enormous
research
interest
nanozymes
the
past
two
decades
has
made
imperative
to
look
better
enzyme-mimicking
materials
biomedical
applications.
Given
this,
on
metal–organic
frameworks
(MOFs)
as
gained
momentum.
MOFs
are
advanced
hybrid
of
inorganic
metal
ions
organic
ligands.
Their
distinct
composition,
adaptable
pore
size,
structural
diversity,
ease
tunability
physicochemical
properties
enable
mimic
activities
act
promising
candidates.
This
review
aims
discuss
recent
advances
development
MOF-based
(MOF-NZs)
highlight
their
applications
field
biomedicine.
Firstly,
different
enzyme-mimetic
exhibited
by
discussed,
insights
given
into
various
strategies
achieve
them.
Modification
functionalization
deliberated
obtain
MOF-NZs
with
enhanced
activity.
Subsequently,
biosensing
therapeutics
domain
discussed.
Finally,
concluded
giving
challenges
encountered
possible
directions
overcome
them
future.
With
this
review,
we
aim
encourage
consolidated
efforts
across
enzyme
engineering,
nanotechnology,
science,
biomedicine
disciplines
inspire
exciting
innovations
emerging
yet
field.
Advanced Functional Materials,
Год журнала:
2025,
Номер
unknown
Опубликована: Янв. 23, 2025
Abstract
In
the
face
of
escalating
antibiotic
resistance
crisis,
world
is
embroiled
in
a
silent
“antibacterial
war”.
Scientists
are
actively
searching
for
innovative
antibacterial
materials
that
can
be
used
as
effective
weapons
against
bacterial
infections.
As
promising
new
crystalline
porous
polymer
materials,
covalent
organic
frameworks
(COFs)
gradually
revealing
their
vast
potential
applications.
This
study
investigates
classification
COF‐based
agents,
provides
comprehensive
overview
applications
and
research
advancements,
explores
strategies
employed
by
COF
materials.
Furthermore,
challenges
outlined
lie
ahead
future
application
agents
insights
into
prospects
within
field
offered.
Through
these
efforts,
aim
to
accelerate
advancements
COFs
manufacturing
technology,
promote
innovation
applications,
contribute
public
health.
