Silver Nanocubes/Nano Mica Platelets Flexible Nanohybrid Substrates Modified by Zinc Oxide Quantum Dots with Synergistic 3D Lightning Rod Effect, and Electromagnetic and Chemical Enhancements for Highly Sensitive SERS Bacterial Biosensor
Materials Today Nano,
Год журнала:
2025,
Номер
unknown, С. 100601 - 100601
Опубликована: Фев. 1, 2025
Язык: Английский
Oyster shell-derived CuFe2O4-Hap nanocomposite for healthy houses: Bacterial and formaldehyde elimination
Chemical Engineering Journal,
Год журнала:
2023,
Номер
477, С. 147054 - 147054
Опубликована: Ноя. 1, 2023
Язык: Английский
Integration of bacteria-imprinted polymer with aluminium transducers: Polymeric electrical behaviour to ionic species
Journal of the Taiwan Institute of Chemical Engineers,
Год журнала:
2025,
Номер
171, С. 106061 - 106061
Опубликована: Март 2, 2025
Язык: Английский
Accurate Prediction of Antimicrobial Susceptibility for Point‐of‐Care Testing of Urine in Less than 90 Minutes via iPRISM Cassettes
Advanced Science,
Год журнала:
2023,
Номер
10(31)
Опубликована: Авг. 16, 2023
The
extensive
and
improper
use
of
antibiotics
has
led
to
a
dramatic
increase
in
the
frequency
antibiotic
resistance
among
human
pathogens,
complicating
infectious
disease
treatments.
In
this
work,
method
for
rapid
antimicrobial
susceptibility
testing
(AST)
is
presented
using
microstructured
silicon
diffraction
gratings
integrated
into
prototype
devices,
which
enhance
bacteria-surface
interactions
promote
bacterial
colonization.
microstructures
act
also
as
optical
sensors
monitoring
growth
upon
exposure
real-time
label-free
manner
via
intensity-based
phase-shift
reflectometric
interference
spectroscopic
measurements
(iPRISM).
Rapid
AST
clinical
isolates
Escherichia
coli
(E.
coli)
from
urine
established
assay
applied
directly
on
unprocessed
samples
urinary
tract
infection
patients.
When
coupled
with
machine
learning
algorithm
trained
samples,
iPRISM
able
predict
or
new
sample
an
Area
Under
Receiver
Operating
Characteristic
curve
(AUC)
∼
0.85
1
h,
AUC
>
0.9
90
min,
when
compared
state-of-the-art
automated
methods
used
clinic
while
being
order
magnitude
faster.
Язык: Английский
Improving antibacterial ability of Ti-Cu thin films with co-sputtering method
Scientific Reports,
Год журнала:
2023,
Номер
13(1)
Опубликована: Окт. 3, 2023
Abstract
Due
to
the
resistance
of
some
bacteria
antibiotics,
research
in
field
dealing
with
bacterial
infections
is
necessary.
A
practical
approach
utilized
this
study
involves
preparation
an
antibacterial
thin
film
on
surfaces,
which
can
effectively
inhibit
and
reduce
biofilm
formation
adherence.
In
study,
we
report
fabrication
bactericidal
titanium
(Ti)
copper
(Cu)
surfaces
a
powerful
co-sputtering
method.
This
method
provides
situation
constituent
elements
are
deposited
simultaneously
control
composition
film.
Prepared
samples
were
examined
by
energy-dispersive
X-ray
spectroscopy
(EDX),
scanning
electron
microscopy
(SEM),
diffraction
(XRD),
atomic
force
(AFM),
contact
angle
measurements.
To
evaluate
behavior,
used
two
strains
Gram-negative
Escherichia
coli
(
E.
)
Gram-positive
Staphylococcus
aureus
S.
).
Antibacterial
activity
prepared
sample
was
assessed
determining
number
colony-forming
units
per
milliliter
(CFU/ml)
using
standard
viable
cell
count
assay.
Results
indicated
that
as
Cu
concentration
increased,
nanoscale
became
rougher,
roughness
values
rising
from
11.85
49.65
nm,
increased
40
80
degrees,
indicating
hydrophilic
character.
These
factors
play
significant
role
properties
surface.
The
Ti-Cu
films
displayed
superior
ability,
99.9%
reduction
(equivalent
5-log
reduction)
viability
after
2
h
compared
Ti
alone
against
both
strains.
Field
emission
(FE-SEM)
images
verified
cells
physically
deformed
damaged
ultrastructure
observed.
findings
highlight
adding
improve
ability
surface
while
inhibiting
Therefore,
14
-Cu
86
highest
percentage
had
best
rate.
Investigation
toxicity
Cu-Ti
conducted
MTT
assay,
revealed
their
biocompatibility
absence
cytotoxicity,
further
confirming
potential
promising
biomaterials
for
various
applications.
Язык: Английский
A Reversible and Dynamic Surface Functionalization for Fluidity Controlled Multivalent Recognition of Lectins and Bacteria
Advanced Science,
Год журнала:
2025,
Номер
unknown
Опубликована: Апрель 26, 2025
Abstract
The
paper
reports
the
design
of
multivalent
bacterial
receptors
based
on
reversible
self‐assembled
monolayers
(rSAMs)
gold
and
glass
substrates,
mimicking
ligand
display
host
cells
extracellular
matrices.
layers
consist
α‐(4‐amidinophenoxy)alkanes
decorated
at
ω‐position
with
β‐galactose
(Gal)
or
sialic
acid
(SA).
former
acts
as
a
mobile
binding
to
complementary
adhesin,
LecA,
key
virulence
factor
multi‐drug‐resistant
bacterium
Pseudomonas
aeruginosa
(PA).
Binary
amphiphile
mixtures
containing
either
these
ligands,
spontaneously
self‐assemble
carboxylic
terminated
SAMs
surfaces
form
rSAMs
that
are
easily
tunable
respect
ratio.
It
is
shown
this
results
in
ability
construct
multi‐reusable
featuring
strong
affinity
for
adhesin
recognitive
bacteria,
latter
demonstrated
by
incubating
culture
PA
oral
commensal
species
Streptococcus
gordonii
(SG)
Gal
SA
functionalized
rSAMs.
In
contrast
display,
covalently
attached
“static”
ligands
exhibited
low
LecA
affinity.
This
approach
wet
chemical
surface
functionalization
unique
imparting
both
rapid
restorability
adaptability,
compatible
heteromultivalent
receptor
designs
boosting
lectin
bacteria
specificity.
Язык: Английский
Eco-friendly Multifunctional CeO2/ZnMn2O4 Heterojunction with Robust Photocatalysis for Rapid Bacteria-Killing and Highly Effective Eradication of Formaldehyde Simultaneously
Journal of environmental chemical engineering,
Год журнала:
2025,
Номер
unknown, С. 116945 - 116945
Опубликована: Май 1, 2025
Язык: Английский
Optically accessible, 3D-printed flow chamber with integrated sensors for the monitoring of oral multispecies biofilm growth in vitro
Frontiers in Bioengineering and Biotechnology,
Год журнала:
2024,
Номер
12
Опубликована: Ноя. 11, 2024
The
formation
of
pathogenic
multispecies
biofilms
in
the
human
oral
cavity
can
lead
to
implant-associated
infections,
which
may
ultimately
result
implant
failure.
These
infections
are
neither
easily
detected
nor
readily
treated.
Due
high
complexity
biofilms,
detailed
mechanisms
bacterial
dysbiotic
shift
not
yet
even
fully
understood.
In
order
study
more
detail
and
develop
prevention
strategies
fight
Язык: Английский
One‐Step Nanoimprinting of Fe2O3/AgBr Thin Films for Dark‐Light Active Antibiofilm and Bacterial‐Free Cell Culture Surfaces
Small Methods,
Год журнала:
2024,
Номер
unknown
Опубликована: Ноя. 27, 2024
Abstract
The
resuscitation
of
bacteria
through
biofilms
presents
a
critical
challenge
in
controlling
microbial
pathogenesis
and
addressing
antimicrobial
resistance.
Continuous
antibiofilm
activity,
particularly
on
frequently
contacted
surfaces,
is
therefore
critical.
In
this
study,
scalable
introduced,
one‐step
fabrication
Fe
2
O
3
/AgBr
nanoimprints
using
polymerizable
sol–gel
(PSG)
approach
to
create
functional
nanostructured
thin
films
with
strong
properties.
,
visible‐light
photocatalyst,
coupled
AgBr,
photosensitizer
dark‐active
antimicrobial,
forming
heterojunction
that
demonstrated
potent
antibacterial
activity
against
Escherichia
coli
Pseudomonas
putida
under
both
dark
light
conditions.
heterojunctions
exhibit
significant
biofilm
inhibition
the
dark,
robust
biofilm‐forming
P.
while
visible
irradiation
ensures
complete
clearance.
These
surfaces
also
achieve
optimal
reactive
oxygen
species
(ROS)
production,
selectively
targeting
without
compromising
integrity
mammalian
cells.
biocompatibility
confirmed
MTT,
TBARS,
apoptosis
assays,
demonstrating
non‐cytotoxic
nature
substrates.
Moreover,
enable
cell
patterning
recovery
cells
from
contamination,
highlighting
their
potential
creating
bacterial‐free
environments
for
culture.
This
innovative
method
offers
promising
route
next‐generation,
self‐cleaning
coatings,
combining
continuous
excellent
scalability.
Язык: Английский