Reviews in Inorganic Chemistry,
Journal Year:
2024,
Volume and Issue:
44(3), P. 385 - 408
Published: Feb. 15, 2024
Abstract
Exposure
to
toxic
gases
resulting
from
rapid
industrialization
poses
significant
health
risks
living
organisms
including
human.
Consequently,
researchers
in
this
modern
scientific
era
have
shown
keen
interest
the
selective
detection
of
these
gases.
The
development
fast,
economical,
selective,
and
highly
sensitive
gas
sensors
has
become
a
crucial
pursuit
accurately
detect
mitigate
their
adverse
effects
on
natural
environment.
Graphene-based
nanocomposites
emerged
as
promising
candidates
for
selectively
detecting
due
extensive
surface
area.
This
review
paper
provides
comprehensive
summary
recent
advancements
graphene-based
sensors.
also
offers
an
overview
various
synthetic
strategies
graphene
its
hybrid
architectures.
Additionally,
it
delves
into
detailed
sensing
applications
materials.
Challenges
limitations
field
been
critically
evaluated
highlighted,
along
with
potential
future
solutions.
Physical Chemistry Chemical Physics,
Journal Year:
2024,
Volume and Issue:
26(14), P. 10940 - 10950
Published: Jan. 1, 2024
A
unique
NiO-nanoparticle-based
electrochemical
sensor
functionalized
with
a
para
-hexanitrocalix[6]arene
derivative
(
p
-HNC6/NiO)
is
developed
for
the
determination
of
bisphenol
S
in
real
samples.
The Chemical Record,
Journal Year:
2024,
Volume and Issue:
24(8)
Published: July 23, 2024
MXene,
regarded
as
cutting-edge
two-dimensional
(2D)
materials,
have
been
widely
explored
in
various
applications
due
to
their
remarkable
flexibility,
high
specific
surface
area,
good
mechanical
strength,
and
interesting
electrical
conductivity.
Recently,
2D
MXene
has
served
a
ideal
platform
for
the
design
development
of
electrocatalysts
with
activity,
selectivity,
stability.
This
review
article
provides
detailed
description
structural
engineering
MXene-based
summarizes
uses
hydrogen
evolution
reactions,
nitrogen
reduction
oxygen
methanol/ethanol
oxidation.
Then,
key
issues
prospects
next-generation
fundamental
research
real-world
electrocatalysis
are
discussed.
Emphasis
will
be
given
material
enhancement
techniques.
Finally,
future
directions
suggested
improve
efficiency
electrocatalysts.
Reviews in Inorganic Chemistry,
Journal Year:
2024,
Volume and Issue:
44(3), P. 385 - 408
Published: Feb. 15, 2024
Abstract
Exposure
to
toxic
gases
resulting
from
rapid
industrialization
poses
significant
health
risks
living
organisms
including
human.
Consequently,
researchers
in
this
modern
scientific
era
have
shown
keen
interest
the
selective
detection
of
these
gases.
The
development
fast,
economical,
selective,
and
highly
sensitive
gas
sensors
has
become
a
crucial
pursuit
accurately
detect
mitigate
their
adverse
effects
on
natural
environment.
Graphene-based
nanocomposites
emerged
as
promising
candidates
for
selectively
detecting
due
extensive
surface
area.
This
review
paper
provides
comprehensive
summary
recent
advancements
graphene-based
sensors.
also
offers
an
overview
various
synthetic
strategies
graphene
its
hybrid
architectures.
Additionally,
it
delves
into
detailed
sensing
applications
materials.
Challenges
limitations
field
been
critically
evaluated
highlighted,
along
with
potential
future
solutions.
