Plasma Processes and Polymers,
Год журнала:
2024,
Номер
22(1)
Опубликована: Дек. 4, 2024
ABSTRACT
In
this
review,
we
give
an
overview
of
the
applications
plasma
activated
water
(PAW)
and
its
chemistry
in
field
agriculture.
This
article
concentrates
on
long‐lived
reactive
species
their
roles
plant
cell
mechanisms.
The
chemical
reactions
important
for
creation
nitrate,
nitrite,
hydrogen
peroxide
inside
during
production
PAW
paths
cells
are
discussed.
We
describe
use
different
types
discharges
present
results
application
to
seeds
plants.
address
decontamination
agricultural
chemicals
along
with
scarcely
explored
topic
remediation.
major
challenges
future
possibilities
agriculture
also
Pesticides
have
been
identified
as
major
contaminants
of
various
waterways.
Being
classified
potential
endocrine
disrupting
compounds,
pesticides
in
aqueous
system
are
highly
hazardous
to
aquatic
organisms
and
the
ecosystem.
The
treatment
pesticide-containing
wastewater
can
be
performed
through
several
means,
but
a
strategy
which
emphasizes
both
efficiency
sustainability
is
necessity
current
time.
In
this
context,
bioremediation
has
increasingly
promoted
an
alternative
technique
for
remediation
diverse
pollutants.
Particularly,
involves
utilization
microalgae
removal
or
conversion
harmless
less
harmful
compounds
becoming
trend.
Exploiting
tool
presents
multiple
advantages
over
conventional
technologies,
include
opportunity
simultaneously
treat
nutrient
recovery
cultivation
well
formation
toxic
sludge.
This
review
discusses
roles
mitigating
pesticide
pollution
issue,
while
offering
from
sources.
Based
on
laboratory
studies,
use
promising
rationalized.
establishment
more
pilot
scale
studies
encouraged
further
facilitate
implementation
approach
practical
application.
Results in Chemistry,
Год журнала:
2023,
Номер
5, С. 100866 - 100866
Опубликована: Янв. 1, 2023
Water
is
one
of
the
most
defining
characteristics
our
mother
planet
and
also
human
body,
hence,
it
essential
to
all
aspects
life.
On
a
sad
note,
increasing
anthropogenic
activities
towards
discharge
novel
known
pollutants
into
these
existing
water
bodies
serious
challenge.
Emerging
organic
contaminants
include
newly
synthesized
compounds
just
discovered
as
such
dyes
dyestuffs,
pesticides,
pharmaceutical
products,
phenols,
industrial
additives,
microbeads,
microplastics.
There
an
inextricable
link
between
wastewater.
They
are
great
concern
in
modern
science
they
destroy
ecosystem
at
large,
dangerous
health
plants,
due
their
toxicities.
In
light
these,
several
remediation
techniques
have
been
embarked
upon,
out
which
degradation
by
adsorption
has
identified
promising
because
ease
operation
cost
efficiency.
This
present
study
intended
shed
more
on
preparation,
characterization,
activation
metal
frameworks
for
removal
emerging
from
through
adsorption.
Desalination and Water Treatment,
Год журнала:
2024,
Номер
320, С. 100591 - 100591
Опубликована: Июль 11, 2024
Sustainable
accessibility
and
adequate
availability
of
healthy
water
are
preconditions
for
living
effective
uninterrupted
ecological
networking.
However,
the
presence
organic
pollutants
like
organochlorine
(OC)
organophosphorus
(OP)
compounds
in
environment
has
led
to
continuous
shrinkage
percentage
clean
available
humanity's
basic
needs.
Interestingly,
green
nanoparticles
biosynthesized
using
biogenic
entities
have
recently
emerged
as
an
appealing
choice
photocatalytic
degradation
a
wide
range
owing
their
eco-benignness.
Particularly,
iron-based
(BIBNPs)
demonstrated
unique
properties
such
ease
fabrication,
excellent
regenerability,
strong
redox
potential,
ability
absorb
visible
light,
produce
highly
reactive
oxygen
species
that
can
enhance
efficiency
low
aggregation
which
beneficial
remediation
contaminants.
The
BIBNPs
maintain
stability
reactivity
under
various
environmental
conditions
makes
them
promising
solution
cleanup
efforts.
This
review
aims
critically
report
empirically
juxtapose
iron
oxide
NPs
spectrum
OC
OP
aquatic
environments.
work
also
generously
elucidates
potential
eco-benign
recyclable
photocatalysts
complete
mineralization
OP.
study
pragmatically
expounded
mechanism
presented
frontiers
future
research
directions
circular
economy,
financial
analysis,
artificial
intelligence
integration,
hybrid
technology.
It
was
discovered
most
prevalent
end
products
were
CO2
H2O,
least
amount
time
needed
just
five
minutes,
plant
extract
widely
used
bio-reductant
bio-fabrication
BIBNPs.
greatest
found
be
100
%
is
testament
superior
efficacy
Scientific Reports,
Год журнала:
2025,
Номер
15(1)
Опубликована: Март 10, 2025
The
application
of
agrochemicals
such
as
organophosphate
pesticides
(OPPs)
has
several
benefits
in
agriculture
but
also
poses
great
risks
to
the
environment
and
human
well-being.
Thus,
this
study
was
conducted
determine
concentrations,
distribution
pattern,
relationships,
potential
sources
OPPs
agricultural
soils
vegetables
from
Delta
Central
District
(DCD)
Nigeria
provide
useful
information
for
pollution
history,
establishment
control
measures
risk
management.
Fourteen
were
determined
soil
using
a
gas
chromatograph-mass
selective
detector
(GC-MSD).
∑14
concentrations
varied
5.29
419
ng
g−1
0.69
130
vegetables.
On
average,
pirimiphos
methyl
(23.8
g−1)
diazinone
(4.74
dominant
respectively.
cumulative
ecological
assessed
toxicity-exposure-ratio
(TER)
quotient
(RQ)
approaches
revealed
that
there
high
organisms.
increasing
order
toxicity
organisms
chlorpyriphos
<
fenitrothion
while
health
suggested
adverse
non-carcinogenic
children
not
adults
exposed
these
RSC Advances,
Год журнала:
2023,
Номер
13(33), С. 22675 - 22697
Опубликована: Янв. 1, 2023
Steroidal
estrogens
(SEs)
pose
a
significant
threat
to
the
aquatic
environment
in
this
era
because
they
interfere
with
human
body's
normal
metabolic
functions,
calls
for
their
sequestration.
Materials,
Год журнала:
2024,
Номер
17(2), С. 527 - 527
Опубликована: Янв. 22, 2024
Hydrosphere
pollution
by
organic
pollutants
of
different
nature
(persistent
dyes,
phenols,
herbicides,
antibiotics,
etc.)
is
one
the
urgent
ecological
problems
facing
humankind
these
days.
The
task
water
purification
from
such
can
be
effectively
solved
with
help
modern
photocatalytic
technologies.
This
article
devoted
to
study
properties
composite
catalysts
based
on
ZnO
modified
plasmonic
Ag
nanoparticles.
All
materials
were
obtained
laser
synthesis
in
liquid
and
differed
their
silver
content
preparation
conditions,
as
additional
irradiation
and/or
annealing
produced
powders.
prepared
ZnO-Ag
powders
investigated
electron
microscopy,
X-ray
diffraction
UV-Vis
spectroscopy.
Photocatalytic
tests
carried
out
well-
known
test
molecules
dye
rhodamine
B,
phenol
common
antibiotic
tetracycline)
using
LED
light
sources
wavelengths
375
410
nm.
introduction
small
concentrations
(up
1%)
nanoparticles
shown
increase
efficiency
photocatalyst
expanding
its
spectral
range.
Both
conditions
material
composition
optimized
obtain
photocatalysts
highest
efficiency.
Finally,
operation
mechanisms
distribution
are
discussed.
