Biosensors,
Journal Year:
2024,
Volume and Issue:
unknown, P. 239 - 279
Published: Nov. 26, 2024
This
chapter
has
two
sections:
one
covers
the
synthetic
BREs
or
MIPs
used
in
different
sensing
platforms
and
other
is
based
on
role
of
nanomaterials
biosensing
applications.
Fabrication
MIP
recently
reported
biosensors
areas
are
discussed
detail.
Section
8.2
discusses
classification
dependent
dimension,
morphology,
chemical
composition.
Furthermore,
advancement
nanomaterials-based
detail,
along
with
analysis
biosensor
designs
advantages
disadvantages
nanostructures.
8.2.4
difficulties
developments
field
wearable
their
applications
sensing.
Biosensors,
Journal Year:
2024,
Volume and Issue:
14(2), P. 108 - 108
Published: Feb. 18, 2024
Nanostructures
have
played
a
key
role
in
the
development
of
different
techniques
to
attack
severe
acute
respiratory
syndrome
coronavirus
2
(SARS-CoV-2).
Some
applications
include
masks,
vaccines,
and
biosensors.
The
latter
are
great
interest
for
detecting
diseases
since
some
their
features
allowed
us
find
specific
markers
secretion
samples
such
as
saliva,
blood,
even
tears.
Herein,
we
highlight
how
hierarchical
nanoparticles
integrated
into
two
or
more
low-dimensional
materials
present
outstanding
advantages
that
attractive
photonic
biosensing
using
nanoscale
functions.
potential
nanohybrids
with
superlative
mechanical
characteristics
together
optical
optoelectronic
properties
is
discussed.
progress
scientific
research
focused
on
variety
viruses
has
become
medical
milestone
recent
years,
laid
groundwork
future
disease
treatments.
This
perspective
analyzes
crucial
information
about
use
nanostructures
prevention,
treatment,
mitigation
SARS-CoV-2
effects.
TrAC Trends in Analytical Chemistry,
Journal Year:
2023,
Volume and Issue:
170, P. 117473 - 117473
Published: Dec. 2, 2023
The
emergence
of
foodborne
viral
diseases
and
COVID-19
their
potential
transmission
through
food
packaging
materials
have
highlighted
the
urgent
need
for
development
sensitive
rapid
sensing
technologies
to
track
outbreaks
in
manufacturing
processes.
This
study
evaluates
performance
biosensors
detecting
infection
SARS-CoV-2
key
viruses
crops,
frozen
foods,
packages.
Also,
advanced
sensors
combined
with
transformative
such
as
blockchain,
Internet
things
(IoT),
artificial
intelligence
(AI)
risk
control
cold
supply
chains
(CFSCs)
was
reviewed.
Frozen
protein-rich
foods
are
major
carriers
industry.
Compared
reverse-transcript
polymerase
chain
reaction
(RT-PCR),
sensor
exhibit
comparable
accuracy
higher
sensitivity.
Electrochemical
(e.g.,
CRISPR/Cas-based
systems)
optical
aptamer-based
surface
plasmon
resonance
(SPR)
surface-enhanced
Raman
spectroscopy
(SERS))
biosensing
systems
demonstrated
binding
specificity
spike
protein
N-gene
sequence
SARS-CoV-2,
enabling
its
selective
diagnosis
high
stability
low
limit
detection.
integration
smart
sustainable
digital
like
IoT,
AI,
blockchain
allows
virus
analysis
CFSCs
using
smartphone
screen's
Wi-Fi
Bluetooth
modules.
Hence,
there
is
a
critical
platforms
ensure
safety
contamination-free
Industry
4.0
post-COVID
future.
