Small,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Jan. 31, 2025
As
the
age
of
Internet
Things
(IoTs)
unfolds,
along
with
rapid
advancement
artificial
intelligence
(AI),
traditional
von
Neumann-based
computing
systems
encounter
significant
challenges
in
handling
vast
amounts
data
storage
and
processing.
Bioinspired
neuromorphic
strategies
offer
a
promising
solution,
characterized
by
features
in-memory
computing,
massively
parallel
processing,
event-driven
operations.
Compared
to
rigid
silicon-based
devices,
flexible
devices
are
lightweight,
thin,
highly
stretchable,
garnering
considerable
attention.
Among
materials
utilized
these
transition
metal
carbides/nitrides
(MXenes)
particularly
noteworthy
their
excellent
flexibility,
exceptional
conductivity,
hydrophilicity,
which
confer
remarkable
properties
upon
devices.
Herein,
comprehensive
discussion
is
provided
on
applications
MXenes
memory
This
review
covers
basic
principles
device
structures
common
parameters
emerging
as
well
synthesis,
functionalization
methods,
distinct
MXenes.
The
remaining
future
opportunities
relevant
also
presented.
can
serve
valuable
reference
lay
cornerstone
for
practical
feasible
implementation
technologies.
ACS Applied Energy Materials,
Journal Year:
2024,
Volume and Issue:
7(5), P. 1890 - 1901
Published: Feb. 21, 2024
MXenes
have
gained
significant
attention
as
layered
two-dimensional
(2D)
materials
by
virtue
of
their
favorable
electrical
conductivity
and
tunable
surface
properties.
Herein,
γ-radiolytic
synthesis
was
carried
out
for
the
development
Pt/Ti3C2Tx
electrocatalyst
via
in
situ
generated
reducing
agents.
Its
characterization
X-ray
absorption
spectroscopy
(XAS)
indicated
strong
metal–support
interaction
(SMSI)
Pt
with
Ti3C2Tx,
which
is
pivotal
enhancing
stability
facilitating
electron
transfer
electrochemical
reactions.
Using
various
techniques,
we
studied
performance
catalyst
toward
oxygen
reduction
reaction
(ORR),
evolution
(OER),
methanol
oxidation
(MOR),
hydrogen
(HER).
With
an
optimum
loading
35
μgPt/cm2,
revealed
a
lower
onset
potential
0.925
V
mass
activity
0.09
mA/μgPt
ORR.
The
MOR
assessed
its
increased
1343.11
mA/mgPt
CO
tolerance
1.29.
Additionally,
required
only
meager
overpotentials
65
650
mV
HER
OER,
respectively,
hence
has
to
substitute
C-based
electrocatalysts.
All
studies
were
against
state-of-the-art
Pt/C.
superior
can
be
rightfully
attributed
SMSI
effect,
duly
utilized
achievement
better
results
electrochemistry.
Small,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Jan. 31, 2025
As
the
age
of
Internet
Things
(IoTs)
unfolds,
along
with
rapid
advancement
artificial
intelligence
(AI),
traditional
von
Neumann-based
computing
systems
encounter
significant
challenges
in
handling
vast
amounts
data
storage
and
processing.
Bioinspired
neuromorphic
strategies
offer
a
promising
solution,
characterized
by
features
in-memory
computing,
massively
parallel
processing,
event-driven
operations.
Compared
to
rigid
silicon-based
devices,
flexible
devices
are
lightweight,
thin,
highly
stretchable,
garnering
considerable
attention.
Among
materials
utilized
these
transition
metal
carbides/nitrides
(MXenes)
particularly
noteworthy
their
excellent
flexibility,
exceptional
conductivity,
hydrophilicity,
which
confer
remarkable
properties
upon
devices.
Herein,
comprehensive
discussion
is
provided
on
applications
MXenes
memory
This
review
covers
basic
principles
device
structures
common
parameters
emerging
as
well
synthesis,
functionalization
methods,
distinct
MXenes.
The
remaining
future
opportunities
relevant
also
presented.
can
serve
valuable
reference
lay
cornerstone
for
practical
feasible
implementation
technologies.
