Journal of Energy Storage,
Journal Year:
2024,
Volume and Issue:
97, P. 112990 - 112990
Published: July 20, 2024
This
review
article
explores
the
evolving
landscape
of
lithium-ion
battery
(LIB)
recycling,
emphasizing
critical
role
innovative
technologies
in
addressing
waste
challenges.
It
examines
environmental
hazards
posed
by
used
batteries
and
underscores
importance
effective
recycling
programs
for
sustainability.
Deep
eutectic
solvents
(DESs)
have
emerged
as
promising
candidates
LIB
offering
advantages
selectivity,
efficiency,
The
provides
a
comprehensive
update
on
recent
developments
DESs
utilization
focusing
processing
conditions
mechanism
peculiarities.
highlights
exponential
growth
research
this
area
need
tracking
trends
novel
achievements.
synthesizes
latest
literature,
discussing
emerging
trends,
strategies,
areas
further
research.
aims
to
contribute
advancing
sustainable
solutions
reshaping
future
management.
Renewable and Sustainable Energy Reviews,
Journal Year:
2023,
Volume and Issue:
191, P. 114176 - 114176
Published: Dec. 16, 2023
The
global
commitment
to
decarbonizing
the
transport
sector
has
resulted
in
an
unabated
growth
markets
for
electric
vehicles
and
their
batteries.
Consequently,
demand
battery
raw
materials
is
continuously
growing.
As
illustration,
meet
net-zero
emissions
targets,
vehicle
market
lithium,
cobalt,
nickel,
graphite
will
increase
26-times,
6-times,
12-times,
9-times
respectively
between
2021
2050.
There
are
diverse
challenges
meeting
this
demand,
requiring
world
embrace
technological
knowledge
advancements
new
investments
without
provoking
conflicts
competing
goals.
uncertainties
a
sustainable
supply
of
minerals,
environmental,
social
governance
complexities,
geopolitical
tensions
throughout
whole
value
chain
have
shaped
regional
concerns
over
success
decarbonization.
Here,
focusing
on
entire
batteries,
approaches
adopted
by
regulatory
agencies,
governments,
mining
companies,
manufacturers,
all
other
stakeholders
evaluated.
Bringing
together
these
aspects,
literature
review
broadens
scope
providing
multifaceted
solutions
necessary
optimize
goal
decarbonization
while
upholding
sustainability
criteria.
Consolidating
previously
fragmented
information,
solid
foundation
more
in-depth
research
existing
difficulties
encountered
governmental
industrial
actors
created.
outcomes
study
may
serve
as
baseline
develop
framework
climate
smart
resource
efficient
batteries
considering
unique
impacts
individual
players.
Advanced Functional Materials,
Journal Year:
2024,
Volume and Issue:
34(29)
Published: April 13, 2024
Abstract
In
order
to
enhance
the
sluggish
kinetics
and
suppress
polysulfide
shuttle
effect
in
high‐loading
lithium–sulfur
(Li–S)
batteries,
it
is
crucial
design
synthesize
catalysts
exhibiting
both
high
conversion
rate
strong
anchoring
toward
species.
Herein,
based
on
theoretical
predictions,
spent
cathode
materials
(LiCoO
2
LiMn
O
4
)
from
lithium‐ion
batteries
are
converted
into
a
bifunctional
catalyst
(Co─MnO)
for
Li–S
through
high‐temperature
shock
method.
Owing
synergistic
catalytic
of
species
exhibit
by
Co─MnO,
superior
electrochemical
performance,
including
excellent
performance
(707
mAh
g
−1
at
4C)
stability
(capacity
fading
0.058%
per
cycle
over
400
cycles
1C)
can
be
delivered
under
low
areal
loading
(<0.5
wt%).
This
work
not
only
offers
new
strategy
catalysts,
but
also
proposes
promising
approach
transform
LIBs
highly
efficient
catalysts.
Applied Energy,
Journal Year:
2024,
Volume and Issue:
361, P. 122921 - 122921
Published: March 1, 2024
Against
the
background
of
growing
market
share
electric
vehicles
worldwide,
recycling
used
vehicle
batteries
needs
to
be
further
investigated.
In
this
paper,
two
processes
for
pyrolyzed
black
mass
from
end-of-life
lithium-ion
batteries,
a
pyrometallurgical
route
and
hydrometallurgical
with
precedent
early-stage
lithium
recovery,
are
techno-economically
evaluated
using
total
cost
ownership
approach.
From
technical
point
view,
approach
thus
focuses
on
maximizing
efficiency
achieved
by
pyrolysis
treatment
battery
scrap
pre-separate
copper
aluminum.
A
scenario
analysis
future
development
material
prices
cell
chemistries
is
performed
determine
influence
these
variables
profitability
processes.
general,
current
trends
in
chemistry
pose
challenges
profitable
LIB
recycling.
The
was
found
less
susceptible
price
fluctuations
changes
than
therefore
expected
more
when
scaled
up,
especially
considering
trend
towards
decreasing
cobalt
content
batteries.
NPG Asia Materials,
Journal Year:
2024,
Volume and Issue:
16(1)
Published: Aug. 30, 2024
Abstract
The
current
change
in
battery
technology
followed
by
the
almost
immediate
adoption
of
lithium
as
a
key
resource
powering
our
energy
needs
various
applications
is
undeniable.
Lithium-ion
batteries
(LIBs)
are
at
forefront
industry
and
offer
excellent
performance.
application
LIBs
expected
to
continue
increase.
renewable
energies
has
spurred
this
LIB
proliferation
resulted
dramatic
increase
waste.
In
review,
we
address
waste
collection
segregation
approaches,
treatment
related
economics.
We
have
coined
“green
score”
concept
based
on
review
several
quantitative
analyses
from
literature
compare
three
mainstream
recycling
processes:
pyrometallurgical,
hydrometallurgical,
direct
recycling.
addition,
analyze
trends
policymaking
government
incentive
development
directed
toward
promoting
Future
perspectives
analyzed,
opportunities
threats
presented.
