Heliyon,
Journal Year:
2023,
Volume and Issue:
9(6), P. e16928 - e16928
Published: June 1, 2023
Nanotechnology
is
the
most
advanced
and
rapidly
progressing
field
of
science
technology.
It
primarily
deals
with
developing
novelty
in
nanomaterials
by
understanding
controlling
matter
at
nanoscale
level.
Silver
nanoparticles
(AgNPs)
are
prominent
incorporated
wide-ranging
applications,
owing
to
their
distinct
characteristics.
Different
methods
have
been
employed
for
synthesis
like
chemical
method,
physical
photochemical
top-down/bottom-up
approach
biological
methods.
The
positive
impacts
silver
observed
various
economy-based
sectors,
including
agriculture.
scientific
curiosity
about
AgNPs
agriculture
plant
biotechnology
has
shown
optimum
efficacy
over
last
few
years.
not
only
enhances
seed
germination
growth,
but
also
improves
quantum
efficiency
photosynthetic
process.
play
a
vital
role
having
several
applications
that
crucial
ensuring
food
security
improving
crop
production.
Moreover,
they
act
as
nano-pesticides,
providing
sufficient
dose
target
plants
without
releasing
unnecessary
pesticides
into
environment.
Nano-fertilizers
slowly
release
nutrients
plants,
thereby
preventing
excessive
nutrient
loss.
utilized
effective
non-toxic
pest
management,
making
them
an
excellent
tool
combating
pests
safely.
They
combine
either
edible
or
non-biodegradable
polymers
active
packaging.
In
addition,
possess
diverse
properties
such
antiviral,
antibacterial
antifungal
activities,
which
protect
from
hazardous
microbes.
aim
this
review
comprehensively
survey
summarize
recent
literature
regarding
negative
on
well
agricultural
applications.
Bioengineering,
Journal Year:
2023,
Volume and Issue:
10(9), P. 1010 - 1010
Published: Aug. 25, 2023
In
the
twenty-first
century,
nanotechnology
has
emerged
as
a
potentially
game-changing
innovation.
Essential
minerals
are
mostly
unavailable
in
modern
cropping
systems
without
application
of
synthetic
fertilizers,
which
have
serious
negative
impact
on
ecosystem.
This
review
focuses
coupling
nanoparticles
with
biofertilizers
to
function
nano-biofertilizers
(NBFs),
may
ensure
world
food
security
face
rising
population.
The
inoculation
plants
NBFs
improves
plant
development
and
resistance
stress.
Metallic
well
organic
components
comprising
polysaccharide
chitosan
be
encapsulated,
utilizing
microbe-based
green
synthesis
make
NBFs,
circumvents
limitations
conventional
chemical
fertilizers.
is
just
getting
started,
shows
more
promise
than
other
approaches
for
changing
farming
into
high-tech
“smart”
farming.
study
used
bibliographic
analysis
using
Web
Science
find
relevant
papers
“nano
biofertilizers”,
“plants”,
“agriculture”.
These
subjects
received
lot
attention
literature,
shown
by
co-citation
patterns
these
publications.
novel
use
agriculture
explored
this
research
work,
makes
unique
characteristics
nanoscale
materials
address
urgent
concerns
including
nutrient
delivery,
crop
protection,
sustainable
methods.
attempts
fill
some
gaps
our
knowledge
discussing
formulation,
fabrication,
characterization
elucidating
mechanisms
interact
how
benefits
ability
withstand
biotic
abiotic
stress
brought
about
climate
change.
also
addresses
recent
developments
future
directions
NBF
formulations
field.
Biotechnology Reports,
Journal Year:
2024,
Volume and Issue:
41, P. e00830 - e00830
Published: Jan. 26, 2024
Current
research
endeavours
are
progressively
focussing
towards
discovering
sustainable
methods
for
synthesising
eco-friendly
materials.
In
this
environment,
nanotechnology
has
emerged
as
a
key
frontier,
especially
in
bioremediation
and
biotechnology.
A
few
areas
of
including
membrane
technology,
sophisticated
oxidation
processes,
biosensors.
It
is
possible
to
create
nanoparticles
(NPs)
via
physical,
chemical,
or
biological
pathways
variety
sizes
forms.
These
days,
the
investigation
plants
substitutes
NP
synthesis
drawn
lot
interest.
Toxic
water
contaminants
such
methyl
blue
have
been
shown
be
removed
upto
70%
by
nanoparticles.
our
article,
we
aimed
at
environmental
sustainability
cost-effectiveness
green
Furthermore
it
offers
comprehensive
thorough
summary
which
can
distinguished
their
ease
use,
financial
sustainability,
environmentally
favourable
utilisation
plant
extracts.
This
study
highlights
how
potential
transform
manufacturing
NPs
while
adhering
stewardship
principles
resource
efficiency.
Nanomaterials,
Journal Year:
2024,
Volume and Issue:
14(17), P. 1425 - 1425
Published: Aug. 31, 2024
Silver
nanoparticles
(Ag
NPs)
have
accumulated
significant
interest
due
to
their
exceptional
physicochemical
properties
and
remarkable
applications
in
biomedicine,
electronics,
catalysis
sensing.
This
comprehensive
review
provides
an
in-depth
study
of
synthetic
approaches
such
as
biological
synthesis,
chemical
physical
synthesis
with
a
detailed
overview
sub-methodologies,
highlighting
advantages
disadvantages.
Additionally,
structural
affected
by
methods
are
discussed
detail
examining
the
dimensions
surface
morphology.
The
explores
distinctive
Ag
NPs,
including
optical,
electrical,
catalytic,
antimicrobial
properties,
which
render
them
beneficial
for
range
applications.
Furthermore,
this
describes
diverse
several
fields,
medicine,
environmental
science,
optoelectronics.
However,
numerous
applications,
kinds
issues
still
exist.
Future
attempts
need
address
difficulties
regarding
techniques,
friendliness,
affordability.
In
order
ensure
secure
utilization
it
is
necessary
establish
sustainability
techniques
eco-friendly
production
methods.
aims
give
analysis,
multifaceted
NPs.
Journal of Nanomaterials,
Journal Year:
2024,
Volume and Issue:
2024, P. 1 - 48
Published: April 12, 2024
Nanotechnology
has
emerged
as
a
promising
field
in
pharmaceutical
research,
involving
producing
unique
nanoscale
materials
with
sizes
up
to
100
nm
via
physiochemical
and
biological
approaches.
Nowadays
more
emphasis
been
given
eco-friendly
techniques
for
developing
nanomaterials
enhance
their
applications
minimize
health
environmental
risks.
With
the
help
of
green
nanotechnology,
wide
range
metal,
metal
oxide,
bimetallic
nanoparticles
distinct
chemical
compositions,
sizes,
morphologies
have
manufactured
which
are
safe,
economical,
environment
friendly.
Due
biocompatibility
vast
potential
biomedical
(antibacterial,
anticancer,
antiviral,
analgesic,
anticoagulant,
biofilm
inhibitory
activity)
other
fields
such
(nanofertilizers,
fermentative,
food,
bioethanol
production,
construction
field),
garnered
significant
interest
worldwide.
The
precursors
combined
natural
extracts
plants,
algae,
fungi,
bacteria
get
potent
novel
Ag,
Au,
Co,
Cu,
Fe,
Zr,
Zn,
Ni,
Pt,
Mg,
Ti,
Pd,
Cd,
Bi2O3,
CeO2,
Co3O4,
CoFe2O4,
CuO,
Fe2O3,
MgO,
NiO,
TiO2,
ZnO,
ZrO2,
Ag-Au,
Ag-Cr,
Ag-Cu,
Ag-Zn,
Ag-CeO2,
Ag-CuO,
Ag-SeO2,
Ag-TiO2,
Ag-ZnO,
Cu-Ag,
Cu-Mg,
Cu-Ni,
Pd-Pt,
Pt-Ag,
ZnO-CuO,
ZnO-SeO,
ZnO-Se,
Se-Zr,
Co-Bi2O3.
These
plant-mediated
possess
excellent
antibacterial
anticancer
activity
when
tested
against
several
microorganisms
cancer
cell
lines.
Plants
contain
essential
phytoconstituents
(polyphenols,
flavonoids,
terpenoids,
glycosides,
alkaloids,
etc.)
compared
sources
(bacteria,
algae)
higher
concentration
that
play
vital
role
development
because
these
plant-phytoconstituents
act
reducing,
stabilizing,
capping
agent
helps
nanoparticles.
After
concluding
all
findings,
this
review
designed
first
time
way
it
imparts
satisfactory
knowledge
about
together,
along
mechanisms.
Additionally,
provides
information
characterization
(UV–vis,
FT-IR,
DLS,
XRD,
SEM,
TEM,
BET,
AFM)
employed
nanoparticles,
applications,
industries.
Hence,
various
types
versatile
application
diverse
is
not
covered
pieces
literature.
