ACS Applied Nano Materials,
Journal Year:
2023,
Volume and Issue:
6(10), P. 8335 - 8345
Published: May 12, 2023
Gas
sensors
with
multiselectivity
are
drawing
increasing
attention
and
temperature-tuned
dual
selectivity
have
been
developed.
Because
Au
nanoparticles
(NPs)
can
lower
the
activation
barrier
for
sensing
reactions,
herein,
NP
decoration
was
used
to
expand
range
of
a
ZnO
nanotetrapod
(NTP)-based
sensor.
A
triselectivity
sensor
based
on
NP–ZnO
NTPs
The
exhibited
enhanced
formaldehyde
when
operation
temperature
<200
°C,
ethanol
between
200
340
acetone
>400
°C.
Additionally,
increased
magnitude
response
decreased
optimal
detection
This
work
demonstrates
that
is
an
efficient
approach
improving
performance
semiconductor-based
gas
temperature-tunable
selectivity.
Advanced Science,
Journal Year:
2022,
Volume and Issue:
9(33)
Published: Sept. 18, 2022
Abstract
With
the
development
of
internet
things
and
artificial
intelligence
electronics,
metal
oxide
semiconductor
(MOS)‐based
sensing
materials
have
attracted
increasing
attention
from
both
fundamental
research
practical
applications.
MOS
possess
intrinsic
physicochemical
properties,
tunable
compositions,
electronic
structure,
are
particularly
suitable
for
integration
miniaturization
in
developing
chemiresistive
gas
sensors.
During
processes,
dynamic
gas–solid
interface
interactions
play
crucial
roles
improving
sensors’
performance,
most
studies
emphasize
gas–MOS
chemical
reactions.
Herein,
a
new
view
angle
focusing
more
on
physical
during
sensing,
basic
theory
overview
latest
progress
process
molecules
including
adsorption,
desorption,
diffusion,
systematically
summarized
elucidated.
The
unique
mechanisms
also
discussed
various
aspects
molecular
interaction
models,
diffusion
mechanism,
interfacial
reaction
behaviors,
where
structure–activity
relationship
behavior
overviewed
detail.
Especially,
surface
adsorption–desorption
dynamics
evaluated,
their
potential
effects
performance
elucidated
regulation
perspective.
Finally,
prospect
further
directions
processes
sensors
is
discussed,
aiming
to
supplement
approaches
high‐performance
ACS Catalysis,
Journal Year:
2023,
Volume and Issue:
13(7), P. 4060 - 4090
Published: March 9, 2023
The
evolution
of
model
catalyst
systems
has
experienced
single-crystal
surfaces
different
transition
metals
and
crystal
faces,
two-dimensional
with
nanoparticles
(NPs)
deposited
on
a
flat
support
surface,
three-dimensional
NPs
loaded
into
the
high-surface-area
supports
such
as
ordered
mesoporous
materials.
latter
two
mimic
nanoparticle
properties
in
industrial
catalysts.
Ordered
carbon
(OMC)
materials
play
unparalleled
roles
catalysis,
energy
storage,
adsorption,
chromatographic
separation,
etc.
because
their
distinctive
structure
which
allows
Knudsen
diffusion
inside
mesopores,
dispersion
oxides,
embedment
pore
walls.
In
this
review,
synthesis
routes
OMC-supported
metal
or
oxide
catalysts,
including
hard-templating
soft-templating
methods,
are
briefly
introduced.
Mass
transfer
reactant
chemisorption
metals,
discrimination
active
species,
catalytic
reaction
mechanism
catalysts
systemically
summarized,
highlight
advantages
catalysis
occurring
mesopores.
Understanding
these
molecular-dominated
factors
provides
insight
controlling
highly
selective
reactions
and,
therefore,
design
long
life.
Small,
Journal Year:
2023,
Volume and Issue:
19(48)
Published: July 4, 2023
Metal
oxide
gas
sensors
have
long
faced
the
challenge
of
low
response
and
poor
selectivity,
especially
at
room
temperature
(RT).
Herein,
a
synergistic
effect
electron
scattering
space
charge
transfer
is
proposed
to
comprehensively
improve
sensing
performance
n-type
metal
oxides
toward
oxidizing
NO2
(electron
acceptor)
RT.
To
this
end,
porous
SnO2
nanoparticles
(NPs)
assembled
from
grains
about
4
nm
with
rich
oxygen
vacancies
are
developed
through
an
acetylacetone-assisted
solvent
evaporation
approach
combined
precise
N2
air
calcinations.
The
results
show
that
as-fabricated
NPs
sensor
exhibits
unprecedented
-sensing
performance,
including
outstanding
(Rg
/Ra
=
772.33
@
5
ppm),
fast
recovery
(<2
s),
extremely
detection
limit
(10
ppb),
exceptional
selectivity
(response
ratio
>30)
Theoretical
calculation
experimental
tests
confirm
excellent
mainly
attributed
unique
transfer.
This
work
proposes
useful
strategy
for
developing
high-performance
RT
using
oxides,
provides
in-depth
understanding
basic
characteristics
on
sensing,
paving
way
efficient
power
consumption
Advanced Functional Materials,
Journal Year:
2024,
Volume and Issue:
34(18)
Published: Jan. 14, 2024
Abstract
Optimally
increasing
the
catalytic
activity
of
Co
3
O
4
‐based
materials
is
crucial
for
promoting
their
practical
applications
acetone
detection;
however,
this
still
remains
challenging.
Herein,
a
strategy
proposed
in
work
to
increase
toward
oxidation
through
synergistic
effect
boron
doping
and
chemical
reduction,
which
can
substantially
improve
sensing
performance
detection.
The
characterization
results
confirm
that
present
facilitates
formation
more
oxygen
vacancies
increases
content
2+
ions
serving
as
active
sites.
As
expected,
optimal
sensor
yields
higher
response
.
To
extend
application
auxiliary
diagnosis
diabetes
exhaled
breath,
sensors
distinguished
between
concentrations
breath
healthy
individuals
simulated
patients
with
diabetes.
Detailed
gas‐sensing
measurements
reveal
enhanced
attributed
increased
by
Mars–van
Krevelen,
Langmuir–Hinshelwood,
Eley–Rideal
mechanisms.
This
study
provides
new
insights
into
fabrication
high‐performance
metal
oxide‐based
gas
improving
materials.
Small,
Journal Year:
2023,
Volume and Issue:
19(39)
Published: June 1, 2023
Abstract
Methane
(CH
4
),
as
the
vital
energy
resource
and
industrial
chemicals,
is
highly
flammable
explosive
for
concentrations
above
limit,
triggering
potential
risks
to
personal
production
safety.
Therefore,
exploiting
smart
gas
sensors
real‐time
monitoring
of
CH
becomes
extremely
important.
Herein,
Pt‐Pd
nanoalloy
functionalized
mesoporous
SnO
2
microspheres
(Pt‐Pd/SnO
)
were
synthesized,
which
show
uniform
diameter
(≈500
nm),
high
surface
area
(40.9–56.5
m
g
−1
large
mesopore
size
(8.8–15.8
nm).
The
dispersed
nanoalloys
are
confined
in
mesopores
,
causing
generation
ofoxygen
defects
increasing
carrier
concentration
sensitive
materials.
representative
Pt
1
‐Pd
/SnO
exhibits
superior
sensing
performance
with
ultrahigh
response
(
R
a
/R
=
21.33
3000
ppm),
fast
response/recovery
speed
(4/9
s),
well
outstanding
stability.
Spectroscopic
analyses
imply
that
such
an
excellent
process
involves
conversion
into
formic
acid
CO
intermediates,
finally
.
Density
functional
theory
(DFT)
calculations
reveal
attractive
covalent
bonding
interaction
rapid
electron
transfer
between
support,
dramatically
promote
orbital
hybridization
Pd
sites
adsorbed
molecules,
enhancing
catalytic
activation
over
layer.
ACS Nano,
Journal Year:
2023,
Volume and Issue:
17(18), P. 17790 - 17798
Published: Aug. 23, 2023
Oxygen
vacancies
and
adsorbed
oxygen
species
on
metal
oxide
surfaces
play
important
roles
in
various
fields.
However,
existing
methods
for
manipulating
surface
require
severe
settings
are
ineffective
repetitive
manipulation.
We
present
a
method
to
manipulate
the
amount
of
by
modifying
adsorption
energy
electrically
controlling
electron
concentration
oxide.
The
control
ability
is
verified
using
first-principles
calculations
based
density
functional
theory
(DFT),
X-ray
photoelectron
spectroscopy
(XPS),
electrical
resistance
analysis.
presented
implemented
fabricating
thin
film
transistors
with
embedded
microheaters.
can
reconfigure
In2O3,
SnO2,
IGZO
so
that
specific
chemisorption
dominates.
selectively
increase
oxidizing
(e.g.,
NO
NO)
reducing
gas
H2S,
NH3,
CO)
reactions
be
vacancy-rich
or
species-rich.
proposed
applied
sensors
overcomes
their
limitations.
makes
sensor
insensitive
one
H2S)
mixed-gas
environments
NO2+H2S)
provides
linear
response
(R2
=
0.998)
target
NO2)
within
3
s.
believe
applicable
applications
utilizing
surfaces.
ACS Applied Nano Materials,
Journal Year:
2024,
Volume and Issue:
7(5), P. 5442 - 5453
Published: Feb. 27, 2024
Due
to
the
large
band
gap,
most
metal
oxide
semiconductor
(MOS)-based
gas
sensors
operate
at
high
temperatures,
which
greatly
limits
their
performance
for
sensing.
In
this
work,
we
reported
successful
synthesis
of
nanocomposites
consisting
porous
MXene
nanosheets
formed
by
sublimation
sulfur
and
SnO2
nanoparticles
(S-PM/SnO2).
To
prevent
restacking
flakes
under
van
der
Waals
force,
a
sacrificial
S-template
method
was
employed
transform
into
three-dimensional
(3D)
structure.
The
presence
lowers
operating
temperature.
With
response
(∼30.6
–
10
ppm
H2S),
rapid
speed
(∼16.6
s
50
sensitivity
(∼3.12
ppm–1),
low
detection
(distinct
100
ppb
good
selectivity
°C,
sensor
based
on
optimal
sample
S-PM/SnO2-6
demonstrates
excellent
H2S
sensing
performance.
improvement
in
gas-sensing
capacity
can
be
attributed
development
heterojunctions
interface
(S-PM)
(NPs).
This
leads
an
enlarged
surface
depletion
region
elevated
potential
barrier,
significantly
amplifies
range
resistance
variation.
These
results
suggest
that
S-PM/SnO2
nanocomposite
has
promising
prospects
realm
low-temperature
highly
sensitive
detection.
IEEE Sensors Journal,
Journal Year:
2024,
Volume and Issue:
24(5), P. 5821 - 5829
Published: Jan. 12, 2024
The
efficient
and
reliable
monitoring
of
acetic
acid
(CH3COOH)
is
significant
to
environmental
protection
human
healthcare.
LaFeO3
a
potential
sensing
material
for
CH3COOH
with
its
good
sensitivity
high
plasticity.
To
further
improve
the
properties
meet
requirements
applications,
we
successfully
utilized
facile
electrospinning
technique
fabricate
series
CH3COOH-sensitive
Ag-doped
(0–5
mol%)
nanotubes.
systematic
characterization
shows
that
appropriate
content
(4
Ag
doping
can
effectively
ameliorate
morphology
realize
loose
porous
structures.
Meanwhile,
sensitization
effect
ameliorated
significantly
enhance
gas-sensing
vapor.
optimal
nanotubes-based
gas
sensor
results
in
detection
limit
0.5
ppm
3.6-fold
enhancement
response
100-ppm
compared
pure
compact
nanotubes
at
low
operating
temperature
(150
°C).
It
also
exhibits
excellent
selectivity
long-term
stability.
Therefore,
be
regarded
as
promising
practical
applications.
Finally,
mechanism
enhanced
discussed.
