Nanotechnology Reviews,
Год журнала:
2023,
Номер
12(1)
Опубликована: Янв. 1, 2023
Abstract
The
repair
and
remodeling
of
injured
tissues,
known
as
wound
healing,
is
a
multifaceted
process.
use
nanotechnology
to
speed
up
the
healing
process
wounds
by
promoting
right
kind
mobility
through
different
mechanisms
has
shown
lot
promise.
Several
nanotechnologies
with
novel
properties
have
emerged
in
recent
years,
each
which
targets
issue
associated
wound-healing
processes.
Through
their
antibacterial,
anti-inflammatory,
angiogenic
actions,
nanomaterials
may
alter
microenvironment
from
non-healing
state.
Wound
dressings
including
hydrogels,
gelatin
sponges,
films,
bandages
all
benefit
nanoparticles
(NPs)
keep
harmful
microbes
out.
addition
bioactive
substances
like
antibiotics,
NPs,
growth
factors
certain
further
boost
efficacy.
In
conclusion,
this
review
sheds
light
on
that
be
aided
special
features
materials
based
nanotechnology.
Although
for
show
great
promise,
study
needed
before
promising
area
can
convert
its
findings
into
consumer-friendly
solutions.
Nanomaterials,
Год журнала:
2022,
Номер
12(23), С. 4219 - 4219
Опубликована: Ноя. 27, 2022
To
ensure
food
safety,
the
current
agricultural
development
has
put
forward
requirements
for
improving
nutritional
quality
and
reducing
harmful
accumulation
of
chemicals.
Nano-enabled
sustainable
agriculture
security
have
been
increasingly
explored
as
a
new
research
frontier.
Nano-fertilizers
show
potential
to
be
more
efficient
than
traditional
fertilizers,
amount
used
while
ensuring
plant
uptake,
supplying
inorganic
nutrients
needed
by
plants,
process
which
plants
produce
organic
nutrients.
Other
uses
nanotechnology
affect
crop
productivity
nutrient
in
addition
nano-fertilizers.
This
article
will
review
progress
using
nanomaterials
improve
recent
years
point
out
focus
future
research.
Coatings,
Год журнала:
2023,
Номер
13(8), С. 1456 - 1456
Опубликована: Авг. 18, 2023
Nanotechnology
is
one
of
the
most
active
research
fields
in
materials
science.
Metal-organic
frameworks
(MOFs)
have
benefits
having
a
sizable
specific
surface
area,
extremely
high
porosity,
changeable
pore
size,
post-synthesis
modification,
and
extreme
thermal
stability.
Graphene
oxide
(GO)
has
attracted
significant
interest
due
to
its
similar
area
MOFs.
Furthermore,
oxygen-containing
groups
presented
graphene
offer
unique
processing
handling
advantages
amphiphilicity
dispersion
water.
MOF-based
GO
recently
attention
resemblance
metal
ions
organic
binding
linkers.
It
sparked
great
past
few
years
distinct
characteristics
higher
performance
compared
MOFs
or
alone.
This
review
aims
describe
current
developments
this
topic
for
researchers.
An
attempt
been
made
provide
synopsis
recent
on
MOFs/GO
composites’
properties,
synthesis
techniques,
challenges,
different
applications,
including
supercapacitors,
gas
separation
storage,
water
purification,
sensing,
catalysis,
biomedical.
Nanomaterials,
Год журнала:
2023,
Номер
13(10), С. 1604 - 1604
Опубликована: Май 10, 2023
The
advancement
in
nanotechnology
has
enabled
a
significant
expansion
agricultural
production.
Agri-nanotechnology
is
an
emerging
discipline
where
nanotechnological
methods
provide
diverse
nanomaterials
(NMs)
such
as
nanopesticides,
nanoherbicides,
nanofertilizers
and
different
nanoforms
of
agrochemicals
for
management.
Applications
nanofabricated
products
can
potentially
improve
the
shelf
life,
stability,
bioavailability,
safety
environmental
sustainability
active
ingredients
sustained
release.
Nanoscale
modification
bulk
or
surface
properties
bears
tremendous
potential
effective
enhancement
productivity.
As
NMs
tolerance
mechanisms
plants
under
stressful
conditions,
they
are
considered
promising
tools
to
overcome
constraints
sustainable
For
their
exceptional
qualities
usages,
nano-enabled
developed
enforced,
along
with
agriculture,
sectors.
rampant
usage
increases
release
into
environment.
Once
incorporated
environment,
may
threaten
stability
function
biological
systems.
Nanotechnology
newly
technology,
so
evaluation
associated
risk
pivotal.
This
review
emphasizes
current
approach
synthesis,
application
interaction
plant-soil
microbes
challenges
address
future
applications
maintaining
This
paper
provides
an
overview
of
recent
research
performed
on
the
applications
metal-organic
frameworks
(MOFs)
for
microplastics
(MPs)
removal
from
aqueous
environments.
MPs
pollution
has
become
a
major
environmental
concern
due
to
its
negative
impacts
aquatic
ecosystems
and
human
health.
Therefore,
developing
effective
sustainable
methods
removing
them
environments
is
crucial.
In
years,
MOFs
have
emerged
as
promising
solution
this
purpose
their
unique
properties
such
high
surface
area,
renewability,
chemical
stability,
versatility.
Moreover,
specific
pore
size
composition
can
be
tailored
enhance
efficiency
in
MPs.
It
been
shown
that
effectively
adsorb
media
range
70-99.9%.
Besides
some
price
concerns,
main
drawback
using
powder
form
which
pose
challenges
instability.
addressed
by
supporting
other
substrates
aerogels
or
foams.
Meanwhile,
there
need
more
investigate
long-term
stability
efficient
regeneration
repeated
use.