Ecotoxicology and Environmental Safety,
Journal Year:
2022,
Volume and Issue:
236, P. 113464 - 113464
Published: April 5, 2022
The
frequent
use
of
antibiotics
allows
them
to
enter
aqueous
environments
via
wastewater,
and
many
types
accumulate
in
the
environment
due
difficult
degradation,
causing
a
threat
environmental
health.
It
is
crucial
adopt
effective
technical
means
remove
environments.
Fenton
reaction,
as
an
organic
pollution
treatment
technology,
particularly
suitable
for
antibiotics,
at
present,
it
one
most
promising
advanced
oxidation
technologies.
Specifically,
rapid
oxidation,
which
features
high
removal
efficiency,
thorough
reactions,
negligible
secondary
pollution,
etc.,
has
led
studies
on
using
reaction
degrade
antibiotics.
This
paper
summarizes
recent
progress
by
Fenton-like
reactions.
First,
applications
various
technologies
are
summarized;
then,
advantages
disadvantages
these
further
summarized.
Compared
with
oxidations
exhibit
milder
conditions,
wider
application
ranges,
great
reduction
economic
costs,
improved
cycle
times,
addition
simple
easy
recycling
catalyst.
Finally,
based
above
analysis,
we
discuss
potential
under
different
scenarios.
review
will
enable
selection
system
treat
according
practical
conditions
also
aid
development
more
removing
other
pollutants.
Chemical Reviews,
Journal Year:
2021,
Volume and Issue:
121(4), P. 1981 - 2019
Published: Jan. 25, 2021
Since
the
first
connection
between
Fenton
chemistry
and
biomedicine,
numerous
studies
have
been
presented
in
this
field.
Comprehensive
presentation
of
guidance
from
a
summary
its
representative
applications
cancer
therapy
would
help
us
understand
promote
further
development
This
comprehensive
review
supplies
basic
information
regarding
chemistry,
including
reactions
Fenton-like
reactions.
Subsequently,
current
progress
is
discussed,
with
some
corresponding
examples
presented.
Furthermore,
strategies
for
optimizing
performance
chemodynamic
guided
by
are
highlighted.
Most
importantly,
future
perspectives
on
combination
biomedicine
or
wider
range
catalytic
approaches
We
hope
that
will
attract
positive
attention
materials
science,
fields
tighten
their
connections.
Environmental Technology & Innovation,
Journal Year:
2020,
Volume and Issue:
19, P. 101026 - 101026
Published: July 1, 2020
The
levels
of
pesticides
in
water
have
increased
due
to
their
excessive
use
the
modern
agricultural
domain.
Choosing
a
suitable
treatment
method
for
pesticide
removal
depends
on
type
and
efficacy
process.
This
review
critically
discusses
provides
detailed
description
variety
chemical,
physical,
biological
approaches
from
water,
such
as
advanced
oxidation
processes,
adsorption,
activated
sludge,
membrane
bioreactors,
technologies.
Both
single-treatment
hybrid
methods
are
thoroughly
described
discussed.
techniques
offers
potential
opportunities
develop
innovative
techniques.
A
thorough
analysis
influent
composition
recognition
best
technique
is
very
important
design
plant
that
targets
maximum
possible
rate
different
types
pesticides.
Furthermore,
decentralization
was
also
discussed
which
it
an
approach
would
lead
better
effluent
quality
lower
prices.
Many
affordable
sludge
adsorption
by
adsorbents
showed
high
treating
International Journal of Environmental Research and Public Health,
Journal Year:
2021,
Volume and Issue:
18(2), P. 468 - 468
Published: Jan. 8, 2021
The
ubiquitous
problem
of
pesticide
in
aquatic
environment
are
receiving
worldwide
concern
as
tends
to
accumulate
the
body
organism
and
sediment
soil,
posing
health
risks
human.
Many
formulations
had
introduced
due
rapid
growth
global
market
result
from
wide
use
pesticides
agricultural
non-agricultural
sectors.
occurrence
water
is
derived
by
runoff
field
industrial
wastewater.
Soluble
were
carried
away
molecules
especially
during
precipitation
event
percolating
downward
into
soil
layers
eventually
reach
surface
waters
groundwater.
Consequently,
it
degrades
quality
reduces
supply
clean
for
potable
water.
Long-time
exposure
low
concentration
resulted
non-carcinogenic
risks.
conventional
method
treatment
processes
encompasses
coagulation-flocculation,
adsorption,
filtration
sedimentation,
which
rely
on
phase
transfer
pollutants.
Those
methods
often
incurred
with
a
relatively
high
operational
cost
may
cause
secondary
pollution
such
sludge
formation.
Advanced
oxidation
(AOPs)
recognized
technologies
containing
recalcitrant
bio-refractory
pollutants
pesticides.
It
has
been
adopted
recent
purification
technology
because
thermodynamic
viability
broad
spectrum
applicability.
This
work
provides
comprehensive
review
drinking
its
possible
treatment.
Environmental Sciences Europe,
Journal Year:
2021,
Volume and Issue:
33(1)
Published: May 21, 2021
Abstract
Tetracycline
pollution
is
a
growing
global
threat
to
aquatic
and
terrestrial
biodiversity
due
its
unprecedented
use
in
aquaculture,
livestock,
human
disease
prevention.
The
influx
of
tetracycline
may
annihilate
the
microbial
ecology
structure
environment
pose
severe
humans
by
disturbing
food
chain.
Although
significant
research
data
are
available
literature
on
various
aspects
tetracycline,
including
detection
techniques,
degradation
mechanisms,
products,
policy
statements
curtail
issue,
there
scarcity
report
compile
recent
for
better
analysis
comparison
policymakers.
To
achieve
this
paucity
knowledge,
current
study
aims
at
collecting
strategies,
mechanisms
involved
biodegradable
non-biodegradable
routes,
main
factor
affecting
novel
techniques
antibiotics
environment,
discuss
antibiotic
resistance
genes
their
potential
role
degradation.
Finally,
limitations
bioremediation
future
prospects
discussed
with
pointers
decision-makers
safer
environment.
