Nanotechnology
is
a
combination
of
scientific
disciplines
and
design
where
characteristics
that
are
present
at
nanometre
scales
utilized
in
the
design,
development
characters,
formulation,
usage
materials,
structures,
devices,
systems.
The
employment
microorganisms
biological
manufacturing
nano-materials
(NMs)
has
substantial
benefits
over
other
methods
rapidly
being
investigated.
production
NMs
by
microbes
such
as
bacteria,
fungus,
algae,
well
their
uses,
discussed
this
chapter.
Microorganisms
create
diverse
environment
which
can
be
synthesized.
issues
must
addressed
include
optimum
shortest
time
to
get
appropriate
size
shape,
enhancing
nanoparticle
stability,
optimizing
certain
for
specific
applications.
There
have
been
several
discussions
on
use
bio-nanoparticles
medicine,
environment,
drug
delivery,
agriculture,
biochemical
sensors.
Archives of Microbiology,
Journal Year:
2023,
Volume and Issue:
205(4)
Published: March 22, 2023
The
utilization
of
living
organisms
for
the
creation
inorganic
nanoscale
particles
is
a
potential
new
development
in
realm
biotechnology.
An
essential
milestone
nanotechnology
process
creating
dependable
and
environmentally
acceptable
metallic
nanoparticles.
Due
to
its
increasing
popularity
ease,
use
ambient
biological
resources
quickly
becoming
more
significant
this
field
study.
phrase
"green
nanotechnology"
has
gained
lot
attention
refers
variety
procedures
that
eliminate
or
do
away
with
hazardous
compounds
repair
environment.
Green
nanomaterials
can
be
used
biotechnological
sectors
such
as
medicine
biology,
well
food
textile
industries,
wastewater
treatment
agriculture
field.
construction
an
updated
level
knowledge
study
systems
might
support
revolutionize
nanoparticles
(NPs)
are
presented
article.
Applied Biochemistry and Biotechnology,
Journal Year:
2023,
Volume and Issue:
196(1), P. 85 - 98
Published: April 26, 2023
Abstract
New
and
creative
methodologies
for
the
fabrication
of
silver
nanoparticles
(Ag-NPs),
which
are
exploited
in
a
wide
range
consumer
items,
significant
interest.
Hence,
this
research
emphasizes
biological
approach
Ag-NPs
through
Egyptian
henna
leaves
(
Lawsonia
inermis
Linn.)
extracts
analysis
prepared
Ag-NPs.
Plant
extract
components
were
identified
by
gas
chromatography
mass
spectrometry
(GC-mass).
The
analyses
carried
out
UV–visible
(UV–Vis),
X-ray
diffraction
(XRD),
transmission
electron
microscope
(TEM),
scanning
(SEM),
Fourier
transform
infrared
(FTIR)
analysis.
UV–Vis
reveals
that
have
maximum
peak
at
460
nm
visible
light.
Structural
characterization
recorded
peaks
corresponded
to
Bragg’s
diffractions
nano-crystal,
with
average
crystallite
sizes
varying
from
28
60
nm.
Antibacterial
activities
examined,
it
is
observed
all
microorganisms
very
sensitive
biologically
synthesized
Biomass Conversion and Biorefinery,
Journal Year:
2023,
Volume and Issue:
unknown
Published: Sept. 15, 2023
Abstract
Many
research
papers
are
currently
being
written
about
various
methodologies
for
the
green
synthesis
of
ZnO
nanoparticles.
In
this
study,
nanoparticles
were
prepared
by
method
using
baker’s
yeast
(
Saccharomyces
cerevisiae
).
The
characterization
produced
involved
utilization
XRD,
FTIR,
SEM,
and
TEM.
investigation
assessment
antimicrobial
potential
photocatalytic
degradation
efficacy
synthesized
materials
through
Eriochrome
Black
T
(EBT).
results
indicate
that
exhibit
a
spherical
morphology,
exhibiting
diameters
ranging
from
13.0
to
20.0nm,
with
an
average
particle
size
15.0nm.
against
S.
aureus
)
gram-positive
E.
coli
gram-negative
bacteria
was
tested
conduction
zone
inhibition
(ZOI)
minimum
inhibitory
concentration
(MIC)
tests.
This
focused
on
study
photocatalytic-degradation
EBT
in
presence
ultraviolet
light.
experiments
impact
factors,
such
as
pH
levels,
initial
concentration,
nanocatalyst
dosage,
observed
efficiency.
vitro
ZOI
MIC
assay,
it
(NPs)
exhibited
greater
,
measuring
23.1
mm
0.625
μg/ml.
contrast,
effectiveness
ZnO-NPs
comparatively
lower,
indicated
17.0
1.250μg/ml.
greatest
elimination,
which
achieved
83.0%
equilibrium,
found
employing
20.0mg
NPs
at
3.0,
according
activity
results.
synthetic
powerful
antibacterial
agents
effective
may
be
used
treatment
wastewater.
Frontiers in Nanotechnology,
Journal Year:
2023,
Volume and Issue:
5
Published: May 2, 2023
Biogenic
metallic
nanoparticles
(BMNPs)
are
nanostructure
materials
synthesized
through
biological
processes
that
have
gained
significant
attention
due
to
their
small
size
and
high
surface
area-to-volume
ratio.
BMNPs
several
advantages
over
chemically
ones
eco-friendly
synthesis
regimen,
sustainability,
biocompatibility,
diverse
multifarious
biomedical
applications.
Moreover,
the
superior
cytocompatibility
stability
capping
layer
(MNPs),
reduces
like
hood
of
toxicity
side
effects,
making
them
a
safer
alternative
traditional
drug
delivery
methods.
Among
promising
applications
BMNPs,
antibacterial
activity,
analytical
sensing
heavy
metals,
roles
in
food
preservations
been
widely
explored.
In
addition,
imaging,
also
investigated
for
therapeutic
activity
such
as
antimicrobial
efficacy
against
skin
soft
tissue
nosocomial
pathogens
targeting
cancer
cells
therapy.
The
present
review
bestows
characterization
techniques
involved
with
MNPs
compressive
aspects
biogenic
using
agricultural
materials,
which
cost
minimizes
use
hazardous
chemicals.
focuses
on
multifold
including
biomedical,
analytical,
preservation
food,
other
consumable
goods
toxicological
aspects.
Scientific Reports,
Journal Year:
2024,
Volume and Issue:
14(1)
Published: Feb. 19, 2024
Abstract
Multi-drug
resistant
(MDR)
bacteria
are
considered
a
serious
public
health
threat.
Also,
increasing
rate
of
resistance
to
anticancer
drugs,
as
well
their
toxicity,
is
another
point
concern.
Therefore,
the
new
antibacterial
and
agents
always
needed.
The
synthesizing
silver
nanoparticles
(AgNPs)
using
medicinal
plants,
an
effective
approach
for
developing
novel
agents.
Rubus
discolor
,
native
species
Caucasus
region,
produces
leaves
that
typically
discarded
by-product
raspberry
production.
present
study
has
focused
on
optimizing
green
synthesis
AgNPs
R.
extract
through
response
surface
methodology.
optimal
values
were
AgNO
3
concentration
7.11
mM,
time
17.83
h,
temperature
56.51
°C,
percentage
29.22.
production
was
confirmed
UV–visible
spectroscopy
(λ
max
at
456.01
nm).
TEM
analysis
revealed
well-dispersed
(an
average
size
37
XRD
crystalline
structure.
EDX
detected
strong
peak
keV
corresponded
Ag.
zeta
potential
value
(−
44.2
mV)
indicated
stability
nanoparticles.
FT-IR
spectra
showed
presence
various
functional
groups
from
plant
compounds,
which
play
important
role
in
capping
bio-reduction
processes.
impressive
activities
against
MDR
Escherichia
coli
Pseudomonas
aeruginosa
(MIC
ranging
0.93
3.75
mg
ml
−1
).
phytochemical
phenolics,
tannins,
flavonoids
AgNPs.
They
also
significant
cytotoxic
effects
A431,
MCF-7,
HepG2
cells
(IC
50
11
49.1
µg
−l
BMC Microbiology,
Journal Year:
2024,
Volume and Issue:
24(1)
Published: March 8, 2024
Abstract
Background
and
objectives
Microbial
cells
capability
to
tolerate
the
effect
of
various
antimicrobial
classes
represent
a
major
worldwide
health
concern.
The
flexible
multi-components
nanocomposites
have
enhanced
physicochemical
characters
with
several
improved
properties.
Thus,
different
biological
activities
biosynthesized
starch/silver-selenium
nanocomposite
(St/Ag-Se
NC)
were
assessed.
Methodology
St/Ag-Se
NC
was
using
Cladosporium
cladosporioides
CBS
174.62
(
C.
)
strain.
shape
average
particle
size
investigated
scanning
electron
microscope
(SEM)
high-resolution
transmission
(HR-TEM),
respectively.
On
other
hand,
on
two
cancer
cell
lines
red
blood
(RBCs)
evaluated
its
hydrogen
peroxide
(H
2
O
scavenging
Moreover,
effects
microbial
species
in
both
planktonic
biofilm
growth
forms
examined.
Results
successfully
oval
spherical
mean
diameter
67.87
nm
as
confirmed
by
HR-TEM
analysis.
showed
promising
anticancer
activity
toward
human
colorectal
carcinoma
(HCT-116)
breast
(MCF-7)
where
IC
50
21.37
19.98
µg/ml,
Similarly,
little
RBCs
observed
low
concentration.
As
well,
highest
H
(42.84%)
recorded
at
concentration
mg/ml.
Additionally,
Staphylococcus
epidermidis
S.
ATCC
12,228
Candida
albicans
10,231
highly
affected
bacterial
fungal
strains
minimum
inhibitory
concentrations
(MICs)
18.75
noticeable
dependent.
A
high
suppression
percentage,
87.5%
68.05%,
aureus
when
exposed
1
mg/ml
0.5
mg/ml,
Conclusion
excellent
antioxidant
activity,
haemocompatibility,
anti-proliferative
concentrations.
Also,
it
exhibited
antibiofilm
activities.
Biotechnology Journal,
Journal Year:
2023,
Volume and Issue:
18(12)
Published: Aug. 24, 2023
Recently,
agricultural
management
innovation
has
incorporated
engineered
nanoparticles.
The
current
investigation
was
carried
out
to
produce
magnesium
oxide
nanoparticles
(MgONPs)
for
the
first
time
applying
S.
cerevisiae
extract.
FTIR,
XRD,
HRTEM,
and
zeta
potential
analysis
were
used
characterize
MgONPs.
FTIR
data
show
that
bioactive
substances
reduce
cap
synthesized
crystalline
metallic
MgONPs
had
four
significant
peaks
in
XRD
pattern.
size
form
of
validated
by
TEM,
which
exhibited
spherical
structures
with
an
average
27
nm.
effect
various
dosages
administered
cowpea
(Vigna
unguiculata
L.)
plant
on
all
vitro
parameters
shown
be
study.
concentration
200
ppm
most
treatment
increased
shoot
length,
dry-weight
root
27.35%,
45.09%,
31.91%
when
compared
untreated
plants.
significantly
photosynthetic
pigments,
150
increasing
soluble
proteins
carbohydrates.
effectively
treated
C.
maculatus,
dose
time-dependent
insecticidal
activity.
death
rates
varied
82.66%
100%
fifth
day.
Biochemical
histopathological
studies
rats
investigated.
Rats
showed
higher
GOT,
GPT,
Urea
levels,
but
lower
creatinine,
indicating
differences.
MgONPs-treated
rats'
liver
mild
moderate
histopathologic
changes,
including
portal
blood
vessel
congestion,
lymphocytic
cholangitis,
degenerative
changes.
improve
development
outcomes
suppress
grain
insects
(C.
maculatus).
Coatings,
Journal Year:
2023,
Volume and Issue:
13(4), P. 693 - 693
Published: March 28, 2023
Many
synthetic
compounds
have
been
applied
to
impart
antimicrobial
properties
fabrics.
In
this
review,
the
types
of
bacteria
are
described.
Furthermore,
agents,
namely
quaternary
ammonium
(QACs),
polyhexamethylene
biguanide
(PHMB),
triclosan,
and
nitrogen-halamines
(N-halamines),
discussed
along
with
their
properties,
advantages
disadvantages.
Although
agents
neutralise
microorganisms,
some
adversely
affect
environment,
safety
health.
These
problems
led
a
novel
generation
coating
treatments
on
textiles,
such
as
copper
nanoparticles
(CNPs)
silver
(AgNPs)
formed
plant
extracts,
chitosan
green
synthesis,
lower
environmental
impact
but
unaltered
premium
performance
improved
durability.
Scientific Reports,
Journal Year:
2023,
Volume and Issue:
13(1)
Published: Sept. 12, 2023
The
emergence
of
antimicrobial
resistance
in
foodborne
bacterial
pathogens
has
raised
significant
concerns
the
food
industry.
This
study
explores
potential
biosynthesized
silver
nanoparticles
(AgNPs)
derived
from
Agaricus
bisporus
(Mushroom)
against
pathogens.
AgNPs
were
characterized
using
various
techniques,
including
UV-visible
spectroscopy,
X-ray
diffraction,
Fourier
transform
infrared
high-resolution
scanning
electron
microscopy
with
energy
dispersive
dynamic
light
scattering,
and
zeta
analysis.
antibacterial
activity
was
tested
a
panel
strains,
their
cytotoxicity
evaluated
on
normal
human
skin
fibroblasts.
Among
Pseudomonas
aeruginosa
ATCC
27853
showed
highest
sensitivity
an
inhibition
zone
diameter
(IZD)
48
mm,
while
Klebsiella
quasipneumoniae
ATTC
700603
Bacillus
cereus
11778
displayed
IZDs
20
mm.
cations
released
by
demonstrated
strong
bactericidal
effects
both
Gram-positive
(G
+
ve)
Gram-negative
-
bacteria,
as
evidenced
minimum
inhibitory
concentration/minimum
concentration
(MBC/MIC)
ratio.
Moreover,
testing
fibroblasts
(HSF)
indicated
that
mushroom
extract
safe,
cell
viability
98.2%.
Therefore,
hold
promise
alternative
means
to
inhibit
biofilm
formation
industry
sector.
