Chemical Communications,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Dec. 11, 2024
Commercial
lithium-ion
batteries
that
use
flammable
liquid
electrolytes
face
significant
safety
risks,
such
as
fires
caused
by
electrolyte
leaks.
Solid
polymer
(SPEs)
present
a
viable
solution
to
this
problem,
with
ether-based
standing
out
due
their
superior
stability
and
compatibility
lithium
metal.
The
SusMat,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Oct. 22, 2024
Abstract
Benefiting
from
the
high
sensitivity
and
electromechanical
conversion
efficiency,
triboelectric
nanogenerators
(TENGs)
are
widely
used
in
various
fields
of
self‐powered
sensing
mechanical
energy
harvesting,
which
have
great
potential
for
application
future
smart
Internet
Things.
The
development
sustainable
materials
with
high‐performance
has
a
vital
impact
on
construction
TENG
devices
that
combine
high‐output
performance
environmental
friendliness,
positive
humanity.
This
review
systematically
comprehensively
summarizes
latest
research
work
TENG's
materials.
First,
an
overall
overview
is
provided
based
composition
materials,
including
amino
acids,
polysaccharides,
synthetic
polymer,
representative
works
further
classified
summarized
detail.
In
addition,
progress
harvesting
applications
also
summarized.
Finally,
overviews
challenges
current
material,
related
outlooks
offered
corresponding
strategies
directions
this
field
future.
Energies,
Journal Year:
2025,
Volume and Issue:
18(2), P. 398 - 398
Published: Jan. 17, 2025
The
growing
demand
for
lithium,
driven
by
its
crucial
role
in
energy
storage
technologies
such
as
lithium-ion
batteries
electric
vehicles,
renewable
storage,
and
portable
electronics,
is
intensifying
the
need
sustainable
extraction
methods.
While
lithium
sourced
from
both
primary
secondary
resources,
particularly
recycled
materials,
recovery
spent
remains
challenging.
This
article
presents
acidic
reductive
leaching
a
promising
alternative
sources
unconventional
ores,
emphasizing
potential
benefits,
higher
rates,
faster
processing,
adaptability
to
various
waste
materials.
Notably,
this
method
facilitates
selective
of
before
cobalt
nickel,
providing
strategic
advantage.
study
highlights
lack
optimization
studies
on
conditions
(e.g.,
acid
concentration,
reducing
agents,
temperature,
time)
that
could
maximize
while
minimizing
environmental
economic
costs.
aims
investigate
optimize
parameters
more
efficient
recovery.
Additionally,
results
contribute
principles
circular
economy
supply
chains
sector,
reduce
dependency
geopolitically
constrained
resources
supporting
global
transition
toward
cleaner
solutions.
Advanced Functional Materials,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Oct. 21, 2024
Abstract
Lithium‐ion
batteries
(LIBs)
with
ternary
oxide
cathode
materials
are
the
prevalent
energy
storage
devices
for
electric
vehicles,
and
huge
amounts
of
spent
LIBs
pose
severe
challenges
in
terms
environmental
impact
resource
management.
Particularly,
proper
handling
degraded
is
central
importance
sustainable
closed‐loop
development
industry.
In
this
context,
direct
regeneration
oxides
toward
reusable
high‐performance
environmentally
economically
favorable
contrast
to
present
metallurgical
recycling
methods.
work,
a
simple
effective
two‐step
method
demonstrated
regenerate
NCM
622
(LiNi
0.6
Co
0.2
Mn
O
2
)
by
elemental
compensation
structural
restoration.
Moreover,
multi‐functional
LTO
(Li
4
Ti
5
12
surface
coating
simultaneously
designed
guarantee
rapid
Li
+
diffusion
stable
regenerated
product.
Therefore,
LTO‐coated
show
excellent
electrochemical
performance;
specifically,
initial
discharge
capacity
(183.0
mAh
g
−1
at
0.1
C),
rate
capability
(90.0
10
cycling
stability
(79.3%
retention
after
200
cycles)
even
comparable
those
fresh
materials.
The
as‐established
upcycling
strategy
may
shed
light
on
value‐added
thereby
virtuous
cycle
LIBs.
World Electric Vehicle Journal,
Journal Year:
2025,
Volume and Issue:
16(3), P. 187 - 187
Published: March 20, 2025
Under
the
low
carbon
goal,
recycling
power
batteries
(PBs)
from
new
energy
vehicles
(NEVs)
is
a
crucial
measure
to
address
resource
shortages
and
reduce
emissions.
This
study
examined
insufficient
collaboration
among
responsible
entities
imperfections
in
market
mechanisms
within
PB
system.
We
overcome
limitations
of
traditional
tripartite
evolutionary
game
models
by
developing
four-party
model
that
incorporates
government,
manufacturers,
recyclers,
consumers
investigate
strategic
interactions
extended
producer
responsibility
(EPR)
framework.
Using
MATLAB
2023a
numerical
simulations
Lyapunov
stability
analysis,
we
found
system’s
efficiency
depend
on
stakeholder
effective
government
policy
guidance.
The
system
evolves
toward
Pareto
optimal
state
when
all
parties
adopt
proactive
strategies.
Meanwhile,
ensuring
substantial
profits
for
manufacturers
recyclers
critical
feasibility
stable
operation
compliant
channels.
While
are
more
sensitive
subsidies
than
consumers,
consumer
decision-making
key
stability.
Long-term
excessive
may
lead
diminishing
marginal
benefits.
Strategic
recommendations
provided
policymakers
stakeholders
enhance
sustainability
Processes,
Journal Year:
2025,
Volume and Issue:
13(4), P. 950 - 950
Published: March 23, 2025
Lithium
battery
recycling
has
become
a
crucial
research
area
due
to
its
important
role
in
environmental
sustainability.
batteries
are
the
most
widely
used
energy
storage
devices,
their
high-performance
properties.
They
have
wide
range
of
applications,
and
use
is
expected
increase,
suggesting
an
escalation
production
generation
spent
batteries.
Environmental
risks
limited
availability
raw
materials
main
concerns
leading
need
for
proper
treatment
end-of-life
This
review
summarizes
approaches
studied
applied
recycling.
It
provides
comprehensive
description
traditional
such
as
pyrometallurgy
hydrometallurgy,
which
effective
metal
recovery
but
with
limitations
related
pollution.
Innovative
processes,
bioleaching,
mechanochemistry
direct
recycling,
also
explored,
benefits
drawbacks
discussed.