E3S Web of Conferences,
Journal Year:
2024,
Volume and Issue:
511, P. 01011 - 01011
Published: Jan. 1, 2024
This
research
investigates
the
transformative
potential
of
nanotechnology
in
tending
to
water
refinement
challenges
and
advancing
natural
supportability.
Carbon
nanotubes
graphene
were
synthesized
joined
into
nanostructured
channels,
showing
a
well-defined
arrangement
with
predominant
basic
keenness
affirmed
through
SEM
XRD
investigations.
In
comprehensive
decontamination
tests,
these
channels
showcased
momentous
efficiencies:
overwhelming
metals,
such
as
lead
(Pb)
cadmium
(Cd),
expelled
at
rates
outperforming
98%
97%,
individually;
poison
methylene
blue
displayed
an
amazing
evacuation
productivity
surpassing
99.5%;
microbial
contaminant
Escherichia
coli
was
successfully
killed,
accomplishing
expulsion
effectiveness
99.9%.
Comparative
investigations
related
studies
underscored
competitive
or
prevalent
execution
channels.
Additionally,
life
cycle
appraisal
(LCA)
highlighted
commitment
maintainability,
uncovering
generally
moo
nursery
gas
outflows
(450
kg
CO
2
e),
vitality
utilization
(550
MJ),
asset
consumption
(10
kg)
filters’
whole
cycle.
The
inventive
integration
treatment
techniques
exhibits
for
effective,
feasible,
intriguing
approaches,
laying
establishment
advancement
progressed
innovations
fundamental
worldwide
resource
conservation.
Plant Nano Biology,
Journal Year:
2023,
Volume and Issue:
6, P. 100053 - 100053
Published: Nov. 1, 2023
Nanometric
carriers
have
great
potential
for
promoting
agrochemical
target
delivery
and
dose
reduction
while
transforming
agriculture
into
a
more
sustainable
environment.
Many
nanoplatforms,
such
as
metal,
polymeric,
clay,
carbon-based,
are
developed
differently.
However,
new
possibilities
of
mixture
between
nanomaterials
explored
by
scientists
called
hybrid
nanoparticles.
The
information
about
these
nanosystems
was
focused
on
development
characterization,
non-target
effects,
uptake
nanoparticles
applied
to
reach
root
or
foliar
pathways
in
plants.
In
this
scenario,
lack
application
exists
can
be
the
future.
Hybrid
smart
carrier
deliver
agrochemicals
two-way
approach
routes
simultaneously
advance
nanocarrier
strategies
depends
design
considering
nanomaterial
characteristics
main
gaps
recent
reports
discussed
here.
Furthermore,
platforms
been
suggested
enable
agricultural
applications
farming
systems.
Plant Stress,
Journal Year:
2023,
Volume and Issue:
10, P. 100216 - 100216
Published: Sept. 9, 2023
Despite
the
evident
progress
made
in
recent
years,
many
challenges
still
exist
agricultural
sector
due
to
of
conventional
agrochemicals,
such
as
low
bioavailability,
photolysis,
pollution
harsh
organic
solvents,
etc.
The
green
revolution
led
endless
use
fertilizers
and
pesticides,
reducing
soil
biodiversity
enhancing
pathogen
resistance.
In
this
context,
nanotechnology
has
emerged
a
possible
way
for
controlled
slow
delivery
well
nano-enabled
sensors
improving
crops.
Furthermore,
using
nanostructures
generic
carrier
platform
agrochemicals
could
reduce
magnitude
loss
agrochemicals.
It
would
be
more
efficient,
cost-effective,
non-toxic,
eco-friendly,
leading
environmental
sustainability.
We
will
review
their
mechanism
on
leaf-targeted
deposition,
impacts,
crop
protection,
food
production.
This
discuss
different
aspects
available
agrochemical
delivery.
also
that
need
addressed
future
directions
commercializing
nano-based
potential
applications.
E3S Web of Conferences,
Journal Year:
2024,
Volume and Issue:
511, P. 01011 - 01011
Published: Jan. 1, 2024
This
research
investigates
the
transformative
potential
of
nanotechnology
in
tending
to
water
refinement
challenges
and
advancing
natural
supportability.
Carbon
nanotubes
graphene
were
synthesized
joined
into
nanostructured
channels,
showing
a
well-defined
arrangement
with
predominant
basic
keenness
affirmed
through
SEM
XRD
investigations.
In
comprehensive
decontamination
tests,
these
channels
showcased
momentous
efficiencies:
overwhelming
metals,
such
as
lead
(Pb)
cadmium
(Cd),
expelled
at
rates
outperforming
98%
97%,
individually;
poison
methylene
blue
displayed
an
amazing
evacuation
productivity
surpassing
99.5%;
microbial
contaminant
Escherichia
coli
was
successfully
killed,
accomplishing
expulsion
effectiveness
99.9%.
Comparative
investigations
related
studies
underscored
competitive
or
prevalent
execution
channels.
Additionally,
life
cycle
appraisal
(LCA)
highlighted
commitment
maintainability,
uncovering
generally
moo
nursery
gas
outflows
(450
kg
CO
2
e),
vitality
utilization
(550
MJ),
asset
consumption
(10
kg)
filters’
whole
cycle.
The
inventive
integration
treatment
techniques
exhibits
for
effective,
feasible,
intriguing
approaches,
laying
establishment
advancement
progressed
innovations
fundamental
worldwide
resource
conservation.
