Abstract
In
recent
years,
renewable
energy
sources,
which
aim
to
replace
rapidly
depleting
fossil
fuels,
face
challenges
due
limited
storage
and
conversion
technologies.
To
enhance
efficiency,
extensive
research
has
been
conducted
in
the
academic
community
on
numerous
potential
materials.
Among
these
materials,
metal
fluorides
have
attracted
significant
attention
their
ionic
metal–fluorine
bonds
tunable
electronic
structures,
attributed
highest
electronegativity
of
fluorine
chemical
composition.
This
makes
them
promising
candidates
for
future
electrochemical
applications
various
fields.
However,
encounter
different
application
directions.
Therefore,
we
comprehensively
review
field
conversion,
aiming
deepen
our
understanding
exhibited
characteristics
processes.
this
paper,
summarize
difficulties
improvement
methods
encountered
types
battery
several
typical
electrode
optimization
strategies
supercapacitors.
water
electrolysis,
focus
surface
reconstruction
critical
role
fluorine,
demonstrating
catalytic
performance
from
perspectives
mechanism
process
analysis.
Finally,
provide
a
summary
outlook
field,
offer
guidance
breakthroughs
fluorides.
Advanced Functional Materials,
Год журнала:
2023,
Номер
33(29)
Опубликована: Апрель 2, 2023
Abstract
Lithium
metal
(LM)
is
a
promising
anode
material
for
next
generation
lithium
ion
based
electrochemical
energy
storage
devices.
Critical
issues
of
unstable
solid
electrolyte
interphases
(SEIs)
and
dendrite
growth
however
still
impede
its
practical
applications.
Herein,
composite
gel
polymer
(GPE),
formed
through
in
situ
polymerization
pentaerythritol
tetraacrylate
with
fumed
silica
fillers,
developed
to
achieve
high
performance
batteries
(LMBs).
As
evidenced
theoretically
experimentally,
the
presence
SiO
2
not
only
accelerates
Li
+
transport
but
also
regulates
solvation
sheath
structures,
thus
facilitating
fast
kinetics
formation
stable
LiF‐rich
interphase
achieving
uniform
depositions
suppress
growth.
The
GPE‐based
Li||Cu
half‐cells
Li||Li
symmetrical
cells
display
Coulombic
efficiency
(CE)
90.3%
after
450
cycles
maintain
stability
over
960
h
at
3
mA
cm
−2
mAh
,
respectively.
In
addition,
Li||LiFePO
4
full‐cells
LM
limited
supply
capacity
retention
68.5%
700
0.5
C
(1
=
170
g
−1
).
Especially,
when
further
applied
anode‐free
LMBs,
carbon
cloth||LiFePO
full‐cell
exhibits
excellent
cycling
an
average
CE
99.94%
160th
cycle
C.
EcoEnergy,
Год журнала:
2023,
Номер
1(2), С. 448 - 459
Опубликована: Дек. 1, 2023
Abstract
Cobalt–nickel
layered
double
hydroxides
(CoNi‐LDHs)
have
been
extensively
synthesized
through
precipitation
methods
for
their
application
in
supercapacitors
(SC).
However,
the
influence
of
precipitant
quantity
on
both
morphology
evolution
and
SC
performance
has
an
underexplored
area.
This
study
systematically
examines
morphological
changes
CoNi‐LDHs
by
varying
alkaline
evaluates
asymmetric
SC.
The
findings
reveal
a
progressive
transformation
with
increase
content,
starting
from
nanorod
(Co
1
Ni
2
(OH)
‐1HMA),
progressing
to
nanorod/nansosheet
composite
‐4HMA),
ultimately
evolving
into
nanosheet
‐8HMA).
is
attributed
synergetic
effect
variable
cobalt,
which
provides
multiple
valences
induces
evolution.
resulting
LDHs
demonstrate
different
performances:
(1)
Co
‐1HMA
exhibits
maximum
capacitance
1764
F/g,
while
‐4HMA
‐8HMA
show
values
1460
F/g
1676
respectively;
(2)
rate
capabilities
showcase
percentages
60.5%
‐1HMA,
83.1%
‐4HMA,
66.3%
‐8HMA;
(3)
energy
densities
are
recorded
at
72.1
Wh/kg
41.3
62.8
Co1Ni
‐8HMA.
Particularly,
superlong
cycling
stability,
retaining
approximately
99%
after
25000
consecutive
charge/discharge
cycles
7.0
A/g.
result
underscores
its
significant
potential
efficient
storage
applications.
ACS Materials Letters,
Год журнала:
2023,
Номер
5(4), С. 944 - 954
Опубликована: Март 1, 2023
Heteroatom-doped
graphene
is
of
great
interest
for
energy
storage
applications
due
to
its
improved
local
electronic
structures
compared
with
undoped
graphene.
However,
a
tunable
method
the
preparation
heteroatom-doped
special
microstructure
still
worth
developing.
Herein,
novel
nitrogen-doped
different
microstructures
facilely
synthesized
via
an
in
situ
interlamination
self-assembling
that
employs
formed
Fe3(PO4)2
and
organoamine
as
catalyst
carbon
source,
respectively.
By
tuning
alkyl
chain
length
organoamine,
octylamine
dodecylamine,
bubble-like
sheet-like
are
obtained,
In
three-electrode
supercapacitor
tests,
besides
double-layer
capacitance,
as-prepared
electrode
material
indeed
exhibits
pseudocapacitance
N-rich
feature,
delivering
good
rate
capability
(166
F
g–1
at
20
A
g–1)
cyclic
performance
(96%
capacitance
retention
over
20,000
cycles
g–1).
More
importantly,
symmetrical
studies
reveal
promising
practicality
achieved
excellent
power
densities
together
long-term
cyclability.
Thereby,
this
work
establishes
new
milestone
facile
synthesis
desired
other
applications.
ACS Applied Materials & Interfaces,
Год журнала:
2023,
Номер
15(34), С. 40488 - 40495
Опубликована: Авг. 18, 2023
Dry
processing
is
a
promising
method
for
high-performance
and
low-cost
lithium-ion
battery
manufacturing
which
uses
polytetrafluoroethylene
(PTFE)
as
binder.
However,
the
electrochemical
stability
of
PTFE
binder
in
cathodes
generated
chemistry
cathode
electrolyte
interphase
(CEI)
layers
are
rarely
reported.
Herein,
CEI
properties
studied
via
cycling
high-loading
dry-processed
electrodes
electrolytes
with
LiPF6
or
LiClO4
salt.
Using
salt
can
eliminate
other
possible
F
sources,
allowing
decomposition
to
be
studied.
The
detection
LiF
cells
confirms
that
undergoes
side
reaction(s)
cathodes.
When
compared
LiClO4,
layer
much
thicker
when
used
These
results
provide
insights
into
may
potentially
enlighten
development
binders
high
efficiency
long
durability
DP-based
LIBs.
Batteries,
Год журнала:
2023,
Номер
9(3), С. 151 - 151
Опубликована: Фев. 27, 2023
In
past
years,
lithium-ion
batteries
(LIBs)
can
be
found
in
every
aspect
of
life,
and
batteries,
as
energy
storage
systems
(ESSs),
need
to
offer
electric
vehicles
(EVs)
more
competition
accepted
markets
for
automobiles.
Thick
electrode
design
reduce
the
use
non-active
materials
improve
density
cost
batteries.
However,
thick
electrodes
are
limited
by
their
weak
mechanical
stability
poor
electrochemical
performance;
these
limitations
could
classified
critical
cracking
thickness
(CCT)
penetration
depth
(LPD).
The
understanding
CCT
LPD
have
been
proposed
recent
works
on
breaking
improving
listed
this
article.
By
comprising
attempts,
some
not
higher
mass
loading
or
accessible
areal
capacity
that
would
defeat
purpose.
