Plant Stress,
Journal Year:
2023,
Volume and Issue:
10, P. 100281 - 100281
Published: Nov. 1, 2023
Plants
face
abiotic
stressors,
such
as
extreme
temperatures,
drought,
salinity,
flood,
and
heavy
metals,
which
negatively
impact
their
growth
development,
leading
to
lower
agricultural
productivity,
food
security
concerns,
financial
losses.
Nanotechnology
has
emerged
a
solution
mitigate
these
negative
effects,
improving
resource
use
efficiency,
reducing
pollution,
preventing
plant
diseases,
enhancing
sustainability.
Nanoparticles
(NPs)
addresses
nutrient
deficiencies,
enhance
stress
tolerance,
improve
crop
yield
quality.
Sustainable
environment
friendly
methods
for
synthesizing
NPs
have
been
developed
over
the
last
few
decades.
possess
distinct
qualities
can
serve
powerful
sensors,
controlling
critical
physiological
biochemical
processes
in
plants.
Furthermore,
offer
unique
mechanisms
adapting
changing
climatic
conditions.
Abiotic
generates
reactive
oxygen
species
(ROS),
cause
oxidative
impairs
redox
homeostasis.
The
roles
of
ROS
signaling
cascades
tolerance
are
gaining
recognition.
This
review
explores
potential
plant-based
metallic
oxide
harmful
consequences
ROS.
We
discussed
green/biological
synthesis
methods,
agriculture,
by
counteract
effects
on
physiology.
Incorporating
green
nanoparticles
mitigation
holds
promising
revolutionize
practices.
Utilizing
nanotechnology
paves
way
sustainable
cultivation,
ensuring
increased
yields
enhanced
environmental
resilience.
RSC Advances,
Journal Year:
2025,
Volume and Issue:
15(4), P. 3008 - 3025
Published: Jan. 1, 2025
The
rapidly
expanding
industrialization
and
global
increase
in
economic
activities
have
drawn
attention
to
the
concerning
accumulation
of
waste.
textile
industry
plays
a
significant
role
environmental
pollution,
especially
water
pollution.
Harmful
dyes
used
during
fabrication
process
are
mixed
with
bodies
through
sewage
or
wastewater
ejected
from
industrial
factories.
These
toxic
not
only
applied
industries
but
also
other
like
pharmaceutical
companies
rubber
manufacturing.
Therefore,
scientists
adopted
alternative
techniques
for
degradation
organic
because
eliminating
drawbacks
traditionally
techniques.
Catalytic
help
safe
easy
nanocatalyst
is
one
best
alternatives.
Accordingly,
use
biomaterials
waste
materials
offers
an
easy,
cost-effective
eco-friendly
approach
synthesis
such
nanocatalysts.
Several
nanocatalysts
been
present
wastewater.
well-known
semi-conductor
selenium
has
several
important
properties,
viz.,
optoelectronic,
photovoltaic,
thermoconductivity,
anisotropy,
research
its
catalytic
application
dye
degradation.
Considering
all
these
points,
nanoparticles
synthesized
via
green
provide
possible
catalyst
current
review
covers
various
aspects
biosynthesis
nanoparticles;
their
as
harmful
dyes,
methylene
blue,
methyl
orange,
rhodamine
B,
alizarin
S,
malachite
green,
sunset
yellow,
fuchsin,
safranin
T,
Congo
red,
bromothymol
blue;
mechanism
process.
This
will
shed
light
on
importance
using
chemistry
towards
different
procedures
explores
interesting
activity
mechanism.
Hence
this
article
be
beneficial
both
industrialists
acdemicians
bridging
gap
between
academic
sceintists.
Nano Select,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Jan. 30, 2025
ABSTRACT
The
applications
of
nanoparticles
(NPs)
have
shown
tremendous
growth
during
the
last
decade
in
field
biomedicine.
Although
chemical
and
physical
methods
dominate
large‐scale
NP
synthesis,
such
are
also
known
for
their
adverse
impact
on
environment
health.
In
contrast,
use
biological
systems
provides
a
sustainable
alternative
producing
functional
NPs
by
biomineralization
process.
transformative
power
artificial
intelligence
(AI)
has
been
proven
prudent
diagnosis,
drug
development,
therapy,
clinical
decision‐making.
AI
can
be
utilized
tailored
design,
scale‐up
biomedical
applications.
present
review
an
overview
process
its
advantages
over
other
eco‐friendly
synthesis
opportunities.
Specific
emphasis
is
provided
application
cancer
therapy
how
biologically
compatible
improve
management.
Finally,
to
best
our
knowledge,
potential
integrating
comprehensively
analyzed
first
time.
Additionally,
help
surpass
conventionally
synthesized
toxicity
toxicology
material
science
provided.
Molecules,
Journal Year:
2025,
Volume and Issue:
30(4), P. 768 - 768
Published: Feb. 7, 2025
Multidrug-resistant
(MDR)
Escherichia
coli
is
a
major
foodborne
pathogen
posing
critical
threat
to
public
health,
particularly
through
the
contamination
of
animal
products.
The
increasing
prevalence
and
virulence
MDR
E.
strains
underscore
urgent
need
for
alternative
antimicrobial
strategies.
This
study
aimed
synthesize
characterize
zinc
oxide
nanoparticles
(ZnO-NPs)
using
Stevia
rebaudiana
as
sustainable
capping
reducing
agent,
aligning
with
green
chemistry
principles.
Of
120
fish
samples,
74.2%
(89/120)
were
positive
contamination.
Among
identified
strains,
77.8%
(119/153)
classified
MDR.
Resistance
profiling
revealed
22
distinct
patterns,
seven
highly
resistant
virulent
selected
further
analyses.
eco-friendly
auto-combustion
synthesis
ZnO-NPs
produced
semi-spherical
hexagonal
shapes
an
average
size
ranging
from
12
25
nm.
Scanning
Electron
Microscope-Energy
Dispersive
X-ray
analysis
(SEM-EDS)
confirms
that
primarily
consist
(37.5%)
oxygen
(19.9%),
carbon
(42.6%)
indicating
process.
demonstrated
potent,
dose-dependent
antibacterial
antibiofilm
activity
against
strains.
Additionally,
mechanistic
studies
disrupt
bacterial
cell
membranes,
alter
cellular
morphology,
interfere
DNA
integrity.
These
findings
highlight
potential
promising
nanomaterial
enhancing
food
safety
addressing
growing
challenge
bacteria.
Metals,
Journal Year:
2022,
Volume and Issue:
12(5), P. 769 - 769
Published: April 29, 2022
Among
the
most
notable
nanotechnology
applications
is
its
employment
in
environmental
remediation
and
biomedical
applications.
Nonetheless,
there
a
need
for
cleaner
sustainable
methods
preparing
nanomaterials
that
use
cheaper,
more
environment-friendly
precursors
than
conventional
synthesis
process.
The
green
chemistry
approach
preparation
of
nanoparticles
becoming
attractive
as
it
uses
non-toxic
chemicals
reagents.
It
also
offers
cost-effective
process
readily
available
plant
sources
microbe
redox
mediators
converting
metallic
cations
to
metal
or
oxide
nanoparticles.
extracts
these
plants
contain
phytochemicals
metabolites
variable
quantities,
which
serve
capping
agents
stabilize
biosynthesized
present
article
reviews
recent
studies
on
fabrication
silver
(Ag2O-NPs)
via
plant-mediated
microbe-mediated
synthesis,
giving
concise
discussion
Ag2O-NPs
employing
different
microbial
sources.
performances
are
reviewed,
highlighting
their
potential
photocatalysis
Sensors,
Journal Year:
2022,
Volume and Issue:
22(13), P. 4669 - 4669
Published: June 21, 2022
During
recent
decades,
metal
oxide
semiconductors
(MOS)
have
sparked
more
attention
in
various
applications
and
industries
due
to
their
excellent
sensing
characteristics,
thermal
stability,
abundance,
ease
of
synthesis.
They
are
reliable
accurate
for
measuring
monitoring
environmentally
important
toxic
gases,
such
as
NO2,
NO,
N2O,
H2S,
CO,
NH3,
CH4,
SO2,
CO2.
Compared
other
technologies,
MOS
sensors
lightweight,
relatively
inexpensive,
robust,
high
material
sensitivity
with
fast
response
times.
Green
nanotechnology
is
a
developing
branch
aims
decrease
the
negative
effects
production
application
nanomaterials.
For
this
purpose,
organic
solvents
chemical
reagents
not
used
prepare
nanoparticles.
On
contrary,
synthesis
or
nanoparticles
done
by
microorganisms,
either
from
plant
extracts
fungi,
yeast,
algae,
bacteria.
Thus,
review
at
illustrating
possible
green
different
oxides
ZnO,
TiO2,
CeO2,
SnO2,
In2O3,
CuO,
NiO,
WO3,
Fe3O4,
well
metallic
doping.
Sustainability,
Journal Year:
2022,
Volume and Issue:
14(7), P. 4328 - 4328
Published: April 6, 2022
Soil
is
the
main
component
in
agroecosystem
besides
water,
microbial
communities,
and
cultivated
plants.
Several
problems
face
soil,
including
soil
pollution,
erosion,
salinization,
degradation
on
a
global
level.
Many
approaches
have
been
applied
to
overcome
these
issues,
such
as
phyto-,
bio-,
nanoremediation
through
different
management
tools.
Mushrooms
can
play
vital
role
bio-nanoremediation,
especially
under
biological
synthesis
of
nanoparticles,
which
could
be
used
bioremediation
process.
This
review
focuses
green
nanoparticles
using
mushrooms
potential
bio-nanoremediation
for
polluted
soils.
The
distinguished
roles
improvement
are
considered
crucial
dimension
sustainable
management,
may
include
controlling
improving
aggregates,
increasing
organic
matter
content,
enhancing
bioavailability
nutrients,
resorting
damaged
and/or
field
still
requires
further
investigation,
particularly
regarding
Chemical Physics Impact,
Journal Year:
2023,
Volume and Issue:
7, P. 100355 - 100355
Published: Oct. 27, 2023
A
lot
of
emphasis
has
been
paid
to
the
greener
method
synthesizing
nanomaterials
since
it
is
a
viable,
dependable,
cost-effective,
wealthy,
and
eco-friendly
paradigm.
Perhaps
using
synthesis
seen
as
smart
tool
reduce
hazardous
effects
added
traditional
methods
suited
for
that
are
often
preferred
in
industry
lab.
This
book
describes
fundamental
procedures
on
sophisticated
green
patterns
techniques,
with
special
attention
metal
metal-based
oxides.
Wastewater
from
textile
sector,
which
contains
chemicals
like
dye
other
pollutants,
substantial
source.
The
environment
suffers
severe
damage
when
hundreds
tons
used
processing
finishing
released
into
natural
streams
aquatic
bodies.
Numerous
studies
have
conducted
utilizing
low-cost
technologies
create
absorbents
can
remove
colours
water
bodies
response
environmental
concerns.
Different
dyes,
including
adsorption,
enzymatic
photocatalytic
degradation,
etc.
most
current
valuable
concept
treating
wastewater,
specially
produced
nanomaterials,
photocatalysis,
straightforward
environmentally
friendly
method.
review
article
covers
primary
goal
biological
methods,
nanoparticle
production,
numerous
benefits
chemistry,
its
use
photocatalysis
degradation
industrial
dyes.
Overall,
this
explores
way
advancements
research
oxides
synthesized
by
better
monitoring
zero
energy
waste.
