Dalton Transactions,
Journal Year:
2024,
Volume and Issue:
53(26), P. 10770 - 10804
Published: Jan. 1, 2024
Prussian
blue
and
analogues
have
attracted
increasing
attention
as
versatile
framework
materials
with
a
wide
range
of
applications
in
catalysis,
energy
conversion
storage,
biomedical
environmental
fields.
Advanced Science,
Journal Year:
2024,
Volume and Issue:
11(31)
Published: June 3, 2024
Abstract
MXene
is
investigated
as
an
electrode
material
for
different
energy
storage
systems
due
to
layered
structures
and
metal‐like
electrical
conductivity.
Experimental
results
show
MXenes
possess
excellent
cycling
performance
anode
materials,
especially
at
large
current
densities.
However,
the
reversible
capacity
relatively
low,
which
a
significant
barrier
meeting
demands
of
industrial
applications.
This
work
synthesizes
N‐doped
graphene‐like
carbon
(NGC)
intercalated
Ti
3
C
2
T
x
(NGC‐Ti
)
van
der
Waals
heterostructure
by
in
situ
method.
The
as‐prepared
NGC‐Ti
employed
sodium‐ion
lithium‐ion
battery
electrodes.
For
batteries,
specific
305
mAh
g
−1
achieved
20
mA
,
2.3
times
higher
than
that
.
400
1.5
Both
batteries
made
from
shows
high
stability.
theoretical
calculations
also
verify
remarkable
improvement
within
O
system,
attributed
additional
adsorption
working
ions
edge
states
NGC.
offers
innovative
way
synthesize
new
provides
route
improve
electrochemical
significantly.
ACS Omega,
Journal Year:
2024,
Volume and Issue:
unknown
Published: July 18, 2024
MXenes
with
their
wide
range
of
tunability
and
good
surface
chemistry
provide
unique
distinctive
characteristics
offering
potential
employment
in
various
aspects
energy
management
applications.
These
high-performance
materials
have
attracted
considerable
attention
recent
decades
due
to
outstanding
characteristics.
In
the
literature,
most
work
is
related
specific
methods
for
preparation
MXenes.
this
Review,
we
present
a
detailed
discussion
on
synthesis
through
different
etching
routes
involving
acids,
such
as
hydrochloric
acid,
hydrofluoric
lithium
fluoride,
non-acidic
alkaline
solution,
electrochemical,
molten
salt
methods.
Furthermore,
concise
overview
structural,
optical,
electronic,
magnetic
properties
provided
corresponding
role
supporting
high
thermal,
chemical,
mechanical,
environmental,
electrochemical
stability.
Additionally,
maintaining
thermal
performance
photovoltaic
systems
(PV/T),
wearable
light
heaters,
solar
water
desalination,
batteries,
supercapacitors
also
briefly
discussed.
A
techno-economic
life
cycle
analysis
analyze
sustainability,
scalability,
commercialization
facilitate
comprehensive
array
systems.
Lastly,
technology
readiness
level
defined,
future
recommendations
are
further
utilization
niche
The
strives
link
process
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