Journal of The Electrochemical Society,
Journal Year:
2024,
Volume and Issue:
171(8), P. 087502 - 087502
Published: July 20, 2024
Zoonotic
diseases
are
a
pressing
challenge
to
global
health,
arising
from
their
interspecies
transmission
and
potential
for
pandemics.
Conventional
diagnostic
methodologies
often
suffer
limitations
in
speed,
sensitivity,
accuracy,
underscoring
the
imperative
innovative
solutions.
Nanomaterial-integrated
biosensors,
especially
electrochemical
modules,
have
gained
increasing
attention
as
promising
tools
rapid,
sensitive,
point-of-care
targeted
detection
of
zoonotic
pathogens.
Despite
considerable
progress,
pervasive
challenges,
including
market
fragmentation
research
disparities,
impede
widespread
adoption.
This
review
explores
essential
role
biosensors
combating
diseases,
urgency
accessible,
cost-effective,
high-throughput
platforms.
It
details
principles
biosensing
highlights
diversified
nanomaterials
enhancing
performance
biosensors.
Furthermore,
it
examines
integration
with
different
electrodes
signal
amplification
strategies
improve
its
sensing
performance.
current
alternate
solutions
perspectives
developing
translating
these
diagnosis/surveillance
diseases.
provides
valuable
insights
into
nanomaterial-based
revolutionize
diagnosis
management
ultimately
contributing
efforts
mitigate
impact
contagious
threats
on
human
animal
health.
Advanced Science,
Journal Year:
2022,
Volume and Issue:
9(36)
Published: Oct. 31, 2022
The
continuous
deterioration
of
the
environment
due
to
extensive
industrialization
and
urbanization
has
raised
requirement
devise
high-performance
environmental
remediation
technologies.
Membrane
technologies,
primarily
based
on
conventional
polymers,
are
most
commercialized
air,
water,
solid,
radiation-based
strategies.
Low
stability
at
high
temperatures,
swelling
in
organic
contaminants,
poor
selectivity
fundamental
issues
associated
with
polymeric
membranes
restricting
their
scalable
viability.
Polymer-metal-carbides
nitrides
(MXenes)
hybrid
possess
remarkable
physicochemical
attributes,
including
strong
mechanical
endurance,
flexibility,
superior
adsorptive
behavior,
selective
permeability,
multi-interactions
between
polymers
MXene's
surface
functionalities.
This
review
articulates
state-of-the-art
MXene-polymer
membranes,
emphasizing
its
fabrication
routes,
enhanced
properties,
improved
behavior.
It
comprehensively
summarizes
utilization
for
applications,
water
purification,
desalination,
ion-separation,
gas
separation
detection,
containment
adsorption,
electromagnetic
nuclear
radiation
shielding.
Furthermore,
highlights
bottlenecks
MXene-Polymer
hybrid-membranes
possible
alternate
solutions
meet
industrial
requirements.
Discussed
opportunities
prospects
related
membrane
intelligent
next-generation
strategies
integration
modern
age
technologies
internet-of-things,
artificial
intelligence,
machine-learning,
5G-communication
cloud-computing
elucidated.
Applied Surface Science Advances,
Journal Year:
2022,
Volume and Issue:
11, P. 100314 - 100314
Published: Oct. 1, 2022
Organic
pollutants
in
industrial
waste
must
be
handled
with
viable
and
eco-friendly
approaches.
In
particular,
releasing
toxic
effluents
like
dyes
into
the
environment
pollutes
water
bodies,
causing
fatal
diseases
humans
is
hazardous
to
aquatic
life.
It
necessitates
removal
of
effluent
before
being
discharged
bodies.
The
photocatalytic
degradation
method
using
metal
oxide
nanoparticles
preferred
choice
amongst
various
dye
remediation
strategies.
However,
state-of-the-art
nanoparticle-based
involves
developing
non-toxic,
economic,
oxides
green
chemistry.
Plant-mediated
ZnO-based
nanoplatforms
exhibited
substantial
properties,
non-toxicity,
biocompatibility,
cost-effectiveness,
possessing
potential
replace
conventional
This
review
focuses
on
development
performance
synthesized
ZnO
towards
degrading
for
wastewater
remediation.
comprehensively
summarizes
nanoparticle
fabrication
from
plant
extracts
(like
leaves,
seeds,
juice,
fruits),
illustrates
their
efficacies,
details
mechanism.
aims
serve
as
a
fundamental
structure
guide
future
research
treatment,
where
attributes
chemistry
are
prerequisites.
ECS Sensors Plus,
Journal Year:
2023,
Volume and Issue:
2(1), P. 015001 - 015001
Published: March 1, 2023
The
5th/6th
generation
bio-sensing
technology
is
an
emerging
field
which
connects
smart
technologies
like
Artificial
Intelligence,
Internet
of
Things
and
Machine
Learning
with
efficient
micro/nano-enabled
sensing
platform
for
making
point-of-care
(POC)
devices
to
investigate
health
management
strategies.
Recently,
the
integration
interfacing
between
quantum
measurement,
signaling,
optimized
bio-actives
has
led
minute
biological
events
anomalous
sensitivity.
Such
are
expected
provide
possibility
measure
record
changes
at
scales
varying
pressure,
temperature,
electromagnetic
fields.
Considering
current
scenarios,
this
perspective
critically
highlights
state-of-art
along
their
challenges
prospects.
