Sustainability,
Journal Year:
2023,
Volume and Issue:
15(16), P. 12639 - 12639
Published: Aug. 21, 2023
In
the
practice
of
medicine,
antibiotics
are
extremely
important
and
employed
in
treatment
infections.
A
lot
consumed
by
humans
excreted
via
urine
feces
into
sewage
systems
plants.
These
considered
to
be
non-biodegradable,
over
years
they
accumulate
aquatic
environment.
The
presence
water
resources
causes
emergence
antibiotic-resistant
bacteria,
posing
a
serious
threat
health
human
beings.
Water
bodies
must
adequately
treated
before
being
discharged
prevent
spread
antibiotic
resistance.
present
article,
sources
strategies
used
for
their
effective
removal,
such
as
ultrafiltration,
microfiltration,
nanofiltration,
membranous
biological
reactor
treatment,
Advanced
Oxidation
Process
(AOP),
Reverse
Osmosis
(RO)
Nano
sorbents,
discussed.
Conventional
wastewater
plants
not
able
eliminate
deposition/resistance
genes
effectively
efficiently.
this
regard,
adsorption
method
is
most
way
removing
from
various
sources.
Bioengineered,
Journal Year:
2021,
Volume and Issue:
12(1), P. 7376 - 7416
Published: Jan. 1, 2021
Antibiotics,
as
antimicrobial
drugs,
have
been
widely
applied
human
and
veterinary
medicines.
Recently,
many
antibiotics
detected
in
the
environments
due
to
their
mass
production,
widespread
use,
but
a
lack
of
adequate
treatment
processes.
The
environmental
occurrence
has
received
worldwide
attention
potential
harm
ecosystem
health.
Research
status
environment
field
is
presented
by
bibliometrics.
Herein,
we
provided
comprehensive
overview
on
following
important
issues:
(1)
different
compartments,
such
wastewater,
surface
water,
soil;
(2)
toxicity
toward
non-target
organisms,
including
aquatic
terrestrial
organisms;
(3)
current
technologies
for
degradation
removal
antibiotics,
adsorption,
hydrolysis,
photodegradation
oxidation,
biodegradation.
It
was
found
that
macrolides,
fluoroquinolones,
tetracyclines,
sulfonamides
were
most
frequently
environment.
Compared
groundwaters,
wastewater
contained
high
concentration
antibiotic
residues.
Both
metabolites
exhibited
especially
organisms
(e.g.,
algae
fish).
Fluoroquinolones,
can
be
removed
through
abiotic
process,
photodegradation,
oxidation.
Fluoroquinolones
directly
undergo
Further
studies
chronic
effects
at
environmentally
relevant
concentrations
urgently
needed
fully
understand
hazards
help
government
establish
permissible
limits.
Biodegradation
promising
technology;
it
numerous
advantages
cost-effectiveness
friendliness.
Chemical Reviews,
Journal Year:
2021,
Volume and Issue:
122(3), P. 2981 - 3121
Published: Dec. 7, 2021
Presently,
conventional
technologies
in
water
treatment
are
not
efficient
enough
to
completely
mineralize
refractory
contaminants.
In
this
context,
the
implementation
of
catalytic
processes
could
be
an
alternative.
Despite
advantages
provided
terms
kinetics
transformation,
selectivity,
and
energy
saving,
numerous
attempts
have
yet
led
at
industrial
scale.
This
review
examines
investigations
different
scales
for
which
controversies
limitations
must
solved
bridge
gap
between
fundamentals
practical
developments.
Particular
attention
has
been
paid
development
solar-driven
some
other
emerging
processes,
such
as
microwave
assisted
catalysis,
plasma-catalytic
or
biocatalytic
remediation,
taking
into
account
their
specific
drawbacks.
Challenges
a
better
understanding
related
complexity
systems
coexistence
various
solid-liquid-gas
interfaces
identified.
Sustainability,
Journal Year:
2023,
Volume and Issue:
15(14), P. 10891 - 10891
Published: July 11, 2023
Nanomaterials
have
gained
significant
attention
as
a
remarkable
class
of
materials
due
to
their
unique
properties
and
the
fact
that
they
encompass
wide
range
samples
with
at
least
one
dimension
ranging
from
1
100
nm.
The
deliberate
design
nanoparticles
enables
achievement
extremely
large
surface
areas.
In
field
cost-effective
electrochemical
devices
for
energy
storage
conversion
applications,
nanomaterials
emerged
key
area
research.
Their
exceptional
physical
chemical
led
extensive
investigations
aimed
improving
performance
cost-effectiveness
devices,
including
batteries,
supercapacitors,
fuel
cells.
continuous
development
enhancement
these
high-performance
are
driven
by
demand
enhanced
productivity,
connectivity,
sustainability
reduced
cost.
This
review
focuses
on
electrodes,
storage,
sensors
(ES)
based
nanotechnology.
It
discusses
application
nanotechnology
in
electrochemistry
water
purification
fate
substances
water,
while
also
introducing
green
cost-effective,
high-fidelity
product
creation
through
methods.
study
emphasizes
synthesis
novel
nanomaterials,
such
metal–organic
frameworks
(MOFs),
covalent
organic
(COFs),
MXenes,
applications
devices.
Furthermore,
it
explores
integration
nanostructures
systems
economically
future
along
challenges
faced
nanotechnology-based
industries.
paper
interplay
between
biosensors,
which
play
vital
role
Overall,
this
provides
comprehensive
overview
significance
conversion.
highlights
need
further
research
rapidly
evolving
serves
valuable
resource
researchers
engineers
interested
latest
advancements
