Energy Material Advances,
Journal Year:
2023,
Volume and Issue:
4
Published: Jan. 1, 2023
Over
the
past
few
decades,
metal–organic
frameworks
(MOFs)
have
been
recognized
as
most
attractive
energy-involved
materials
due
to
their
unique
features,
including
ultrahigh
specific
surface
area,
superior
porous
structure,
and
excellent
customizability.
Nevertheless,
pristine
MOFs
suffer
from
low
electronic
conductivity
chemical
instability,
which
severely
hindered
large-scale
applications.
Recently,
MXene
with
abundant
terminations
high
metallic
suggested
a
valid
substrate
improve
stability
of
MOFs.
Importantly,
MXene/MOF
composites
enhanced
conductivity,
rich
chemistry,
hierarchical
structure
facilitate
rapid
electron/ion
transfer
deliver
better
electrochemical
properties
than
that
original
through
synergistic
effects.
Moreover,
can
be
designed
into
various
derivatives
desired
architecture
performance.
Therefore,
elaborate
synthesis
hybrids
for
devices
are
great
interest.
Herein,
we
provided
state-of-the-art
review
on
progress
in
terms
strategies
Furthermore,
put
forward
current
challenges
feasible
research
directions
future
development.
Journal of Energy Chemistry,
Journal Year:
2023,
Volume and Issue:
81, P. 321 - 338
Published: March 14, 2023
Sodium-ion
batteries
are
expected
to
be
more
affordable
for
stationary
applications
than
lithium-ion
batteries,
while
still
offering
sufficient
energy
density
and
operational
capacity
power
a
significant
segment
of
the
battery
market.
Despite
this,
thermal
runaway
explosions
associated
with
organic
electrolytes
have
led
concerns
regarding
safety
sodium-ion
batteries.
Among
electrolytes,
ionic
liquids
promising
because
they
negligible
vapor
pressure
show
high
electrochemical
stability.
This
review
discusses
contributions
these
electrolyte
properties
high-temperature
applications.
The
provide
stability
at
same
time
promoting
high-voltage
window
operations.
Moreover,
apart
from
cycle
stability,
there
is
an
additional
feature
attributed
modified
ultra-concentrated
liquid
electrolytes.
Concerning
contributions,
following
been
discussed,
heat
sources
mechanisms,
decomposition
mechanism
stable
cations,
transport
In
addition,
hybrid
systems
consisting
either
carbonate
or
polymers
also
discussed.
found
main
contributor
cell
For
where
safety,
capacity,
important,
highly
concentrated
potential
solutions
Energy Material Advances,
Journal Year:
2023,
Volume and Issue:
4
Published: Jan. 1, 2023
Over
the
past
few
decades,
metal–organic
frameworks
(MOFs)
have
been
recognized
as
most
attractive
energy-involved
materials
due
to
their
unique
features,
including
ultrahigh
specific
surface
area,
superior
porous
structure,
and
excellent
customizability.
Nevertheless,
pristine
MOFs
suffer
from
low
electronic
conductivity
chemical
instability,
which
severely
hindered
large-scale
applications.
Recently,
MXene
with
abundant
terminations
high
metallic
suggested
a
valid
substrate
improve
stability
of
MOFs.
Importantly,
MXene/MOF
composites
enhanced
conductivity,
rich
chemistry,
hierarchical
structure
facilitate
rapid
electron/ion
transfer
deliver
better
electrochemical
properties
than
that
original
through
synergistic
effects.
Moreover,
can
be
designed
into
various
derivatives
desired
architecture
performance.
Therefore,
elaborate
synthesis
hybrids
for
devices
are
great
interest.
Herein,
we
provided
state-of-the-art
review
on
progress
in
terms
strategies
Furthermore,
put
forward
current
challenges
feasible
research
directions
future
development.
