Particulate Science And Technology,
Journal Year:
2023,
Volume and Issue:
42(5), P. 874 - 894
Published: Nov. 16, 2023
Nanotechnology
is
an
emerging
field
with
diverse
applications,
wherein
materials
ranging
in
size
from
1
to
100
nm,
referred
as
nanoparticles
(NPs),
are
utilized.
Traditional
methods
for
producing
metallic
NPs
primarily
involve
chemical
processes,
which
can
result
unintended
outcomes.
To
overcome
these
challenges,
a
greener
alternative,
known
green
synthesis,
has
been
developed.
Green
synthesis
of
emerged
innovative
and
environmentally
friendly
approach
nanotechnology.
Utilizing
plant
extracts,
microorganisms,
biopolymers
reducing
stabilizing
agents,
researchers
have
successfully
prepared
various
nanoparticles,
such
silver,
copper,
gold,
platinum,
palladium
nanoparticles.
These
offer
advantages
like
cost-effectiveness,
reduced
environmental
impact,
facile
scalability.
This
method
ensures
eco-friendliness
by
implementing
techniques
the
use
safe,
nontoxic
solvents
(such
supercritical
fluids
water)
additives
polysaccharides.
Different
reaction
conditions
energy-saving
growth
also
employed
enhance
sustainability.
Nanoparticles
synthesized
through
exhibit
unique
properties,
rendering
them
highly
suitable
including
catalysis,
medicine,
energy
technologies.
review
paper
explores
recent
advances
biosynthesis
at
nanoscale
highlights
different
factors
that
affect
their
possible
applications
Frontiers in Bioengineering and Biotechnology,
Journal Year:
2023,
Volume and Issue:
11
Published: May 2, 2023
Graphical
Abstract
Sources
for
biogenic
synthesis:
The
synthesis
sources
include
but
are
not
limited
to
bacteria,
fungi,
algae,
yeasts,
marine
and
plant
sources.
Crystals,
Journal Year:
2023,
Volume and Issue:
13(11), P. 1576 - 1576
Published: Nov. 8, 2023
Green
synthesis
offers
a
superior
alternative
to
traditional
methods
for
producing
metal
and
oxide
nanoparticles.
This
approach
is
not
only
benign
safe
but
also
cost-effective,
scalable,
straightforward,
operating
under
ambient
conditions.
Notable
metals
nanoparticles,
such
as
manganese
oxides,
iron
silver,
gold,
have
been
produced
using
various
bio-reductants
derived
from
plant
extracts.
These
biological
agents
expedite
the
reduction
process
stabilize
serving
dual
roles
reducing
capping
agents.
review
presents
green
of
nanoparticles
(NPs)
obtained
biogenic
wastes
The
green-synthesized
nanostructured
MnO2
are
evaluated
potential
photocatalyst
water
treatment
an
electrode
material
in
lithium-ion
batteries
supercapacitors.
green-derived
examined
promising
antioxidant,
anti-inflammatory,
anti-diabetic
Additionally,
this
discusses
precious
specifically
silver
(Ag
NPs)
gold
(Au
NPs),
highlighting
their
medical
applications
areas
like
antiviral
treatments
cancer
therapy.
International Journal of Molecular Sciences,
Journal Year:
2023,
Volume and Issue:
24(20), P. 15397 - 15397
Published: Oct. 20, 2023
In
recent
years,
interest
in
nanotechnology
has
increased
exponentially
due
to
enhanced
progress
and
technological
innovation.
tissue
engineering,
the
development
of
metallic
nanoparticles
been
amplified,
especially
their
antibacterial
properties.
Another
important
characteristic
metal
NPs
is
that
they
enable
high
control
over
features
developed
scaffolds
(optimizing
mechanical
strength
offering
controlled
release
bioactive
agents).
Currently,
main
concern
related
method
synthesis
oxide
environmental
impact.
The
physical
chemical
uses
toxic
agents
could
generate
hazards
or
exert
carcinogenicity/environmental
toxicity.
Therefore,
a
greener,
cleaner,
more
reliable
approach
needed.
Green
synthetic
come
as
solution
counter
aforementioned
limitations.
Nowadays,
green
preferred
because
it
leads
prevention/minimization
waste,
reduction
derivatives/pollution,
use
non-toxic
(safer)
solvents.
This
not
only
biomass
sources
reducing
for
salts.
biomolecules
also
cover
synthesized
act
situ
capping
agents.
Further,
involvement
formation
process
reduces
toxicity,
prevents
nanoparticle
agglomeration,
improves
antimicrobial
activity
nanomaterial,
leading
possible
synergistic
effect.
study
aims
provide
comprehensive
review
nanoparticles,
from
routes,
selected
solvents,
parameters
latest
application
biomedical
field.
Molecules,
Journal Year:
2023,
Volume and Issue:
28(2), P. 808 - 808
Published: Jan. 13, 2023
The
study's
objective
was
to
obtain
silver
nanoparticles
(SVAgNP
and
FUAgNP)
using
aqueous
extracts
of
Salvia
verticillata
Filipendula
ulmaria.
optimal
conditions
for
nanoparticle
synthesis
were
determined
obtained;
then
characterized
UV-Vis,
Fourier-transform
infrared
spectroscopy
(FTIR),
X-ray
powder
diffraction
(XRD),
Dynamic
Light
Scattering
(DLS),
Scanning
Electron
Microscopy
with
Energy
Dispersive
Spectroscopy
(SEM/EDS).
SVAgNP
FUAgNP
possessed
a
crystalline
structure
48.42%
60.41%
weight,
respectively.
highest
percentage
in
the
solution
had
diameter
between
40
70
nm.
In
DPPH˙
ABTS˙+
methods,
(IC50
15.82
59.85
µg/mL,
respectively)
demonstrated
higher
antioxidant
capacity
than
73.47
79.49
respectively).
Obtained
also
showed
pronounced
antibacterial
activity
(MIC
˂
39.1
µg/mL
most
tested
bacteria),
as
well
high
biocompatibility
human
fibroblast
cell
line
MRC-5
significant
cytotoxicity
on
some
cancer
lines,
especially
colon
HCT-116
cells
31.50
66.51
FUAgNP,
catalytic
effectiveness
degrading
Congo
red
dye
NaBH4.
results
rapid
low-cost
methodology
AgNPs
S.
F.
ulmaria
promising
biological
potential.
Chemical Engineering Journal Advances,
Journal Year:
2023,
Volume and Issue:
16, P. 100536 - 100536
Published: July 17, 2023
In
recent
years,
zinc
oxide
nanoparticles
(ZnO
NPs)
are
being
investigated
for
their
photocatalytic
application
in
remediation
of
dye
contaminated
water.
The
utilization
bio-waste
and
natural
resources
(plant
parts
such
as
fruit,
leaves,
flowers
etc.)
materials
the
synthesis
ZnO
NPs
leads
to
advancement
compared
conventional
physical
chemical
methods
order
produce
inexpensive,
eco-friendly
long-term
stabilized
NPs.
mediated
approach
eliminates
possibility
hazardous
by-products
well
complexity
reaction
steps.
this
perspective,
review
emphasizes
strategies
stabilization
using
extracts
various
plant
based
materials.
role
phytochemicals
from
different
bio-wastes
mechanism
discussed
here
synthesis.
A
special
focus
is
given
addition,
current
challenges
prospects
practical
real
environmental
fields
also
highlighted.
ACS Omega,
Journal Year:
2023,
Volume and Issue:
8(27), P. 24371 - 24386
Published: June 26, 2023
Due
to
biochemically
active
secondary
metabolites
that
assist
in
the
reduction,
stabilization,
and
capping
of
nanoparticles,
plant-mediated
nanoparticle
synthesis
is
becoming
more
popular.
This
because
it
allows
for
ecologically
friendly,
feasible,
sustainable,
cost-effective
green
techniques.
study
describes
biosynthesis
silver
nanoparticles
(AgNPs)
functionalized
with
histidine
phenylalanine
using
Lippia
abyssinica
(locally
called
koseret)
plant
leaf
extract.
The
functionalization
amino
acids
was
meant
enhance
biological
activities
AgNPs.
synthesized
were
characterized
UV-Visible
absorption
(UV-Vis),
powder
X-ray
diffraction
(pXRD),
scanning
electron
microscopy
(SEM),
energy-dispersive
(EDX)
spectroscopy,
transmission
(TEM),
Fourier
transform
infrared
(FTIR)
spectroscopy.
surface
plasmonic
resonance
(SPR)
peak
at
about
433
nm
confirmed
FTIR
spectra
also
revealed
phytochemicals
extract
responsible
biogenically
On
other
hand,
TEM
micrograph
morphology
AgNP-His
had
diameters
ranging
from
5
14
nm.
antibacterial
against
Gram-positive
Gram-negative
bacteria
showed
a
growth
inhibition
8.67
±
1.25
11.00
0.82
mm
Escherichia
coli
Staphylococcus
aureus,
respectively,
concentration
62.5
μg/mL
AgNP-His.
Moreover,
has
an
antioxidant
activity
potential
63.76
1.25%
250
μg/mL.
results
green-synthesized
AgNPs
possess
promising
applications.
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.
