Journal of Physics Conference Series,
Journal Year:
2024,
Volume and Issue:
2837(1), P. 012046 - 012046
Published: Oct. 1, 2024
Abstract
Bioflavonoid
myricetin-capped
silver-selenium
nanoparticles
(Myr-AgSeNPs)
are
biosynthesized
successfully
by
a
green
approach.
The
physicochemical
properties
of
the
Myr-AgSeNPs
were
characterized
using
SEM,
EDS,
and
FTIR
techniques.
appeared
as
combined
spherical
rod
in
form
with
average
size
100
to
600
nm
size.
EDS
micrograph
confirms
appearance
Se
Ag
carbon
oxygen
atoms,
which
suggests
that
particles
have
high
purity.
atoms
correspond
organic
molecules
(myricetin)
attached
on
surface
nanoparticles.
results
indicates
functional
groups
myricetin
AgSeNPs,
coated
anticandidal
activity
was
examined
based
zone
inhibition
(ZOI)
studies
agar
well-diffusion
method.
shows
against
tested
candidiasis-causing
Candida
albicans
is
almost
equal
standard
antibiotic
fluconazole.
Finally,
this
study
might
be
good
candidate
for
effective
treatment
C.
albicans.
Bioengineering,
Journal Year:
2025,
Volume and Issue:
12(5), P. 438 - 438
Published: April 22, 2025
(1)
Background:
Tannic
acid
(TA),
a
water-soluble
polyphenol
extensively
found
in
numerous
plant
species,
possesses
antimicrobial,
anti-inflammatory,
antioxidant,
and
adhesive
properties.
This
scoping
review
aims
to
synthesize
existing
knowledge
on
TA
applications
unveil
its
potential
uses
dentistry.
(2)
Methods:
A
comprehensive
search
across
six
electronic
databases
(PubMed,
Cochrane,
Embase,
Scopus,
Web
of
Science,
Opengrey)
was
conducted
October
2024.
Two
reviewers
performed
the
screening
risk
bias
analysis
independently
following
PRISMA-ScR
guidelines.
The
findings
are
presented
narrative
summary.
(3)
Results:
Five
hundred
twelve
records
were
identified
from
databases.
After
removing
duplicates
applying
eligibility
criteria,
ninety-six
studies
ultimately
included
this
review.
Results
indicate
that
has
been
employed
managing
dentin
hypersensitivity,
dental
caries,
periodontal
mucosal
diseases,
as
well
dentition
defects
with
prostheses.
Furthermore,
displays
enhancing
performance
bonding
adhesives,
root
canal
irrigants,
filling
materials.
However,
it
is
noteworthy
exhibit
varied
experimental
settings,
inconsistent
outcome
measures,
lack
extensive
clinical
research,
insufficient
observation
periods.
(4)
Conclusions:
promising
biomaterial
various
fields,
such
endodontics,
periodontology,
prosthodontics,
public
health.
Its
properties
warrant
future
exploration
unleash
these
potentials
provide
robust
scientific
evidence
guides
practice
advances
oral
healthcare.
Journal of Physics Conference Series,
Journal Year:
2024,
Volume and Issue:
2837(1), P. 012046 - 012046
Published: Oct. 1, 2024
Abstract
Bioflavonoid
myricetin-capped
silver-selenium
nanoparticles
(Myr-AgSeNPs)
are
biosynthesized
successfully
by
a
green
approach.
The
physicochemical
properties
of
the
Myr-AgSeNPs
were
characterized
using
SEM,
EDS,
and
FTIR
techniques.
appeared
as
combined
spherical
rod
in
form
with
average
size
100
to
600
nm
size.
EDS
micrograph
confirms
appearance
Se
Ag
carbon
oxygen
atoms,
which
suggests
that
particles
have
high
purity.
atoms
correspond
organic
molecules
(myricetin)
attached
on
surface
nanoparticles.
results
indicates
functional
groups
myricetin
AgSeNPs,
coated
anticandidal
activity
was
examined
based
zone
inhibition
(ZOI)
studies
agar
well-diffusion
method.
shows
against
tested
candidiasis-causing
Candida
albicans
is
almost
equal
standard
antibiotic
fluconazole.
Finally,
this
study
might
be
good
candidate
for
effective
treatment
C.
albicans.
