Sensors,
Journal Year:
2022,
Volume and Issue:
22(3), P. 895 - 895
Published: Jan. 24, 2022
Nitric
oxide
(NO)
is
a
highly
reactive
toxic
gas
that
forms
as
an
intermediate
compound
during
the
oxidation
of
ammonia
and
used
for
manufacture
hydroxylamine
in
chemical
industry.
Moreover,
NO
signaling
molecule
many
physiological
pathological
processes
mammals,
well
biomarker
indicating
course
inflammatory
respiratory
tract.
For
this
reason,
detection
both
phase
aqueous
media
important
task.
This
review
analyzes
state
research
over
past
ten
years
field
applications
phthalocyanines,
porphyrins
their
hybrid
materials
active
layers
sensors
NO,
with
primary
focus
on
chemiresistive
electrochemical
ones.
The
first
part
devoted
to
study
phthalocyanines
porphyrins,
hybrids
solutions
biological
media.
second
presents
analysis
works
describing
latest
achievements
studied
determination
gaseous
NO.
It
expected
will
further
increase
interest
researchers
who
are
engaged
current
level
evaluation
selection
modern
use
sensing
nitric
oxide.
Advanced Materials Technologies,
Journal Year:
2024,
Volume and Issue:
9(8)
Published: Feb. 21, 2024
Abstract
Flexible
piezoresistive
sensors
hold
great
promise
in
biomedicine
and
personal
motion
detection,
attracting
significant
attention
from
researchers.
Particularly,
two‐dimensional
(2D)
MXene
has
made
remarkable
strides
biomedicine,
electromagnetic
shielding,
other
practical
applications,
due
to
its
exceptional
hydrophilicity,
biocompatibility,
mechanical
properties,
surface
functional
groups,
large
specific
area.
The
ease
of
composite
material
formation
further
makes
it
ideal
for
high‐sensitivity
flexible
sensors.
This
paper
summarizes
the
principal
structural
configurations
multi‐scale
interfaces,
performance
assessment
metrics,
corresponding
sensing
mechanisms
Subsequently,
main
characteristics
synthesis
methods
MXene,
especially
related
applications
parameters
are
introduced
detail.
research
trends
typical
MXene‐based
focused
on
film
structures,
fiber
3D
hydrogel
highlighted
systematically.
In
addition,
challenges
prospects
that
promoting
advancement
future
also
discussed,
which
will
revolutionize
field
offer
a
wealth
opportunities
beyond.
Biosensors,
Journal Year:
2024,
Volume and Issue:
14(10), P. 497 - 497
Published: Oct. 12, 2024
Owing
to
their
unique
physicochemical
properties,
MXenes
have
emerged
as
promising
materials
for
biosensing
applications.
This
review
paper
comprehensively
explores
the
recent
advancements
in
MXene-based
biosensors
health
and
environmental
begins
with
an
introduction
biosensors,
outlining
various
types
of
including
electrochemical,
enzymatic,
optical,
fluorescent-based
systems.
The
synthesis
methods
characteristics
are
thoroughly
discussed,
highlighting
importance
these
processes
tailoring
specific
Particular
attention
is
given
development
electrochemical
which
shown
remarkable
sensitivity
selectivity
detecting
analytes.
then
delves
into
enzymatic
exploring
how
integration
enzymes
enhances
sensor
performance
expands
range
detectable
biomarkers.
Optical
based
on
examined,
focusing
mechanisms
applications
both
healthcare
monitoring.
potential
MXene
also
investigated,
showcasing
utility
imaging
sensing
In
addition,
wearable
been
discussed
along
role
volatile
organic
compound
(VOC)
detection
Finally,
this
concludes
a
critical
analysis
current
state
provides
insights
future
perspectives
challenges
rapidly
evolving
field.
Sensors,
Journal Year:
2022,
Volume and Issue:
22(3), P. 895 - 895
Published: Jan. 24, 2022
Nitric
oxide
(NO)
is
a
highly
reactive
toxic
gas
that
forms
as
an
intermediate
compound
during
the
oxidation
of
ammonia
and
used
for
manufacture
hydroxylamine
in
chemical
industry.
Moreover,
NO
signaling
molecule
many
physiological
pathological
processes
mammals,
well
biomarker
indicating
course
inflammatory
respiratory
tract.
For
this
reason,
detection
both
phase
aqueous
media
important
task.
This
review
analyzes
state
research
over
past
ten
years
field
applications
phthalocyanines,
porphyrins
their
hybrid
materials
active
layers
sensors
NO,
with
primary
focus
on
chemiresistive
electrochemical
ones.
The
first
part
devoted
to
study
phthalocyanines
porphyrins,
hybrids
solutions
biological
media.
second
presents
analysis
works
describing
latest
achievements
studied
determination
gaseous
NO.
It
expected
will
further
increase
interest
researchers
who
are
engaged
current
level
evaluation
selection
modern
use
sensing
nitric
oxide.
