Journal of Macromolecular Science Part A,
Journal Year:
2024,
Volume and Issue:
62(1), P. 2 - 15
Published: Dec. 9, 2024
As
high
crystallinity,
porosity,
large
surface
area,
biocompatibility
and
well-defined
structural
organic
polymeric
material,
covalent
frameworks
(COFs)
have
gained
significant
success
become
indispensable
part
of
the
field
material
chemistry.
The
features
COFs
enable
them
as
potential
candidates
for
wide
range
applications
in
various
fields
over
last
few
years.
In
this
mini-review,
we
discussed
recent
development
sensing-based
COFs,
especially
those
which
were
not
detail
before,
such
physico-sensing
(humidity
sensor,
fluorescent
photoelectrochemical
thermal
sensor),
chemico-sensing
(chemical
environmental
gas
food
safety
analysis)
bio-sensing
(pesticide
sulfadiazine
sensing
fish
muscle)
after
brief
elaboration
general
synthetic
routes
physico-chemical
properties
responsible
COFs.
Moreover,
future
perspectives
conclusion
sections
with
respect
to
further
extrapolation
research
get
closer
real
are
also
discussed.
Advanced Functional Materials,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Jan. 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.
International Journal of Molecular Sciences,
Journal Year:
2023,
Volume and Issue:
24(11), P. 9375 - 9375
Published: May 27, 2023
The
rapid
development
of
antimicrobial
resistance
due
to
broad
antibiotic
utilisation
in
the
healthcare
and
food
industries
non-availability
novel
antibiotics
represents
one
most
critical
public
health
issues
worldwide.
Current
advances
nanotechnology
allow
new
materials
address
drug-resistant
bacterial
infections
specific,
focused,
biologically
safe
ways.
unique
physicochemical
properties,
biocompatibility,
wide
range
adaptability
nanomaterials
that
exhibit
photothermal
capability
can
be
employed
develop
next
generation
photothermally
induced
controllable
hyperthermia
as
antibacterial
nanoplatforms.
Here,
we
review
current
state
art
different
functional
classes
strategies
optimise
efficiency.
recent
achievements
trends
developing
active
nanostructures,
including
plasmonic
metals,
semiconductors,
carbon-based
organic
polymers,
mechanisms
action,
anti-multidrug-resistant
bacteria
biofilm
removal,
will
discussed.
Insights
into
effect
various
factors
influencing
performance,
emphasising
structure-performance
relationship,
are
We
examine
agents'
functionalisation
for
specific
bacteria,
effects
near-infrared
light
irradiation
spectrum,
multimodal
synergistic-based
therapies
minimise
side
maintain
low
costs.
relevant
applications
presented,
such
antibiofilm
formation,
penetration
or
ablation,
nanomaterial-based
infected
wound
therapy.
Practical
employing
agents,
alone
synergistic
combination
with
other
nanomaterials,
considered.
Existing
challenges
limitations
therapy
future
perspectives
presented
from
structural,
functional,
safety,
clinical
potential
points
view.
Advances in Colloid and Interface Science,
Journal Year:
2023,
Volume and Issue:
323, P. 103055 - 103055
Published: Nov. 29, 2023
The
detrimental
impact
of
corrosion
on
metallic
materials
remains
a
pressing
concern
across
industries.
Recently,
intelligent
anti-corrosive
coatings
for
safeguarding
metal
infrastructures
have
garnered
significant
interest.
These
are
equipped
with
micro/nano
carriers
that
store
inhibitors
and
release
them
when
triggered
by
external
stimuli.
advanced
the
capability
to
elevate
electrochemical
impedance
values
steel
2-3
orders
magnitude
compared
blank
coating.
However,
achieving
intelligent,
durable,
reliable
requires
careful
consideration
in
design
these
carriers.
This
review
paper
primarily
focuses
investigating
inhibition
mechanism
various
nano/micro
carriers/barriers
identifying
challenges
associated
using
desired
properties
coatings.
Furthermore,
fundamental
aspects
required
carriers,
including
compatibility
coating
matrix,
high
specific
surface
area,
stability
different
environments,
stimuli-responsive
behavior,
facile
synthesis
were
investigated.
To
achieve
this
aim,
we
explored
micro/nanocarriers
based
oxide
nanoparticles,
carbonaceous
two-dimensional
(2D)
nanomaterials.
Finally,
reviewed
recent
literature
application
state-of
art
nanocarriers
metal-organic
frameworks
(MOFs)
covalent-organic
(COFs).
We
believe
outcomes
offer
valuable
insights
researchers
selecting
appropriate
can
effectively
enhance
resistance
Water,
Journal Year:
2024,
Volume and Issue:
16(11), P. 1588 - 1588
Published: June 1, 2024
Photocatalytic
degradation
technology
has
received
much
attention
from
researchers
in
the
last
few
decades,
due
to
its
easy
and
cost-effective
nature.
A
lot
of
review
articles
have
been
published
on
dyes
via
photocatalytic
degradation,
but
most
lack
a
detailed
in-depth
mechanism
dyes.
Numerous
are
available
photocatalysis.
Here,
this
article,
we
mainly
focused
complete
four
commonly
used
such
as
Malachite
Green,
Methylene
Blue,
Congo
Red
Rhodamine
B,
which
will
be
highly
useful
for
new
that
work
dyes’
degradation.
Initially,
various
aspects
included
comprehensively.
The
main
focus
was
covalent
organic
framework-based
photocatalysts
their
porous
nature
unique
properties.
Various
synthesis
routes
performance
frameworks
composite
highlighted
article.
In
section
stimulus
mentioned
properties,
uses,
toxicity,
through
paths
into
environmentally
friendly
less-harmful
compounds
presence
photocatalysts.
Factors
effecting
economic
cost,
challenges
future
were
also
This
article
those
search
complex
dye
molecules.
Nanoscale Advances,
Journal Year:
2023,
Volume and Issue:
5(23), P. 6278 - 6317
Published: Jan. 1, 2023
Multidrug-resistant
(MDR)
bacteria-caused
infections
have
been
a
major
threat
to
human
health.
The
abuse
of
conventional
antibiotics
accelerates
the
generation
MDR
bacteria
and
makes
situation
worse.
emergence
nanomaterials
holds
great
promise
for
solving
this
tricky
problem
due
their
multiple
antibacterial
mechanisms,
tunable
spectra,
low
probabilities
inducing
drug
resistance.
In
review,
we
summarize
mechanism
resistance,
introduce
recently
developed
dealing
with
Chemistry - A European Journal,
Journal Year:
2023,
Volume and Issue:
30(3)
Published: Oct. 16, 2023
Abstract
Covalent
organic
frameworks
(COFs)
are
a
type
of
crystalline
porous
polymer
composed
light
elements
through
strong
covalent
bonds.
COFs
have
attracted
considerable
attention
due
to
their
unique
designable
structures
and
excellent
material
properties.
Currently,
shown
outstanding
potential
in
various
fields,
including
gas
storage,
pollutant
removal,
catalysis,
adsorption,
optoelectronics,
research
the
sensing
field
is
also
increasingly
flourishing.
In
this
review,
we
focus
on
COF‐based
sensors.
Firstly,
elucidate
fundamental
principles
Then,
present
primary
application
areas
sensors
recent
advancements,
encompassing
gas,
ions,
compounds,
biomolecules
sensing.
Finally,
discuss
future
trends
challenges
faced
by
sensors,
outlining
promising
prospects
