Batteries,
Год журнала:
2024,
Номер
10(7), С. 255 - 255
Опубликована: Июль 17, 2024
Solid-state
batteries
(SSBs)
have
emerged
as
a
promising
alternative
to
conventional
lithium-ion
batteries,
with
notable
advantages
in
safety,
energy
density,
and
longevity,
yet
the
environmental
implications
of
their
life
cycle,
from
manufacturing
disposal,
remain
critical
concern.
This
review
examines
impacts
associated
production,
use,
end-of-life
management
SSBs,
starting
extraction
processing
raw
materials,
highlights
significant
natural
resource
consumption,
emissions.
A
comparative
analysis
traditional
battery
underscores
hazards
novel
materials
specific
SSBs.
The
also
assesses
operational
impact
SSBs
by
evaluating
efficiency
carbon
footprint
comparison
followed
an
exploration
challenges,
including
disposal
risks,
regulatory
frameworks,
shortcomings
existing
waste
practices.
focus
is
placed
on
recycling
reuse
strategies,
reviewing
current
methodologies
like
mechanical,
pyrometallurgical,
hydrometallurgical
processes,
along
emerging
technologies
that
aim
overcome
barriers,
while
analyzing
economic
technological
challenges
these
processes.
Additionally,
real-world
case
studies
are
presented,
serving
benchmarks
for
best
practices
highlighting
lessons
learned
field.
In
conclusion,
paper
identifies
research
gaps
future
directions
reducing
underscoring
need
interdisciplinary
collaboration
advance
sustainable
SSB
contribute
balancing
advancements
stewardship,
thereby
supporting
transition
more
future.
ACS Energy Letters,
Год журнала:
2024,
Номер
9(7), С. 3324 - 3334
Опубликована: Июнь 12, 2024
All-solid-state
batteries
provide
opportunities
for
safe
and
robust
energy
storage
solutions.
An
emerging
issue
is
the
final
disposal
of
spent
due
to
required
production
scale,
limited
lifetime,
lack
recycling
methods.
Here,
we
propose
an
architectural
design
recyclable
all-solid-state
lithium
based
on
interfacial
layers
at
electrodes.
Flexible
bis(fluorosulfonyl)imide
doped
polypropylene
carbonate
(PPC-LiFSI)
improve
physical
contacts
Li
metal
Li7La3Zr2O12
(LLZO)-based
composite
electrolytes
interfaces
serve
as
sacrificial
enable
clean
separation
direct
recycling.
Recovered
components
demonstrate
preservation
electrochemical
properties
through
reintegration
into
batteries.
Fully
recovered
full
cells
with
Li-metal
LTO
anodes
show
92.5%
93.8%
original
discharge
capacity
0.05
C
room
temperature.
We
approach
fulfill
long-term
goals
sustainable
devices.
Journal of Physics Energy,
Год журнала:
2024,
Номер
6(4), С. 041502 - 041502
Опубликована: Авг. 6, 2024
Abstract
Modern
batteries
are
highly
complex
devices.
The
cells
contain
many
components—which
in
turn
all
have
variations,
both
terms
of
chemistry
and
physical
properties.
A
few
examples:
the
active
materials
making
electrodes
coated
on
current
collectors
using
solvents,
binders
additives;
multicomponent
electrolyte,
contains
salts,
electrolyte
can
also
be
a
solid
ceramic,
polymer
or
glass
material;
separator,
which
made
fibres,
polymeric,
composite,
etc.
Moving
up
scale
these
components
assembled
different
formats
geometries,
coin
Swagelok
for
funamental
testing
understanding,
pouch,
prismatic
cylindrical
application.
Given
this
complexity
dictated
by
so
there
is
no
wonder
that
addressing
crucial
issue
true
sustainability
an
extremely
challenging
task.
How
we
make
sure
each
component
sustainable?
performance
delivered
more
sustainable
battery
components?
What
actions
do
need
to
take
address
properly?
actually
qualify
quantify
best
way
possible?
And
perhaps
most
importantly;
how
work—academia
industry
together—to
enable
latter
manufacture
truly
cleaner
future?
This
Roadmap
assembles
views
from
experts
academia,
industry,
research
institutes,
other
organisations
could
should
achieve
future.
palette
has
colours:
it
discusses
very
definition
battery,
diversification
beyond
lithium-ion
(LIBs),
importance
assessments,
threat
scarcity
raw
possible
impact
future
manufacturing
LIBs,
possibility
electrode
chemistries
as
well
manufacturing,
important
role
new
chemistries,
AI
automation
discovery
developimg
circular
economy.
Communications Materials,
Год журнала:
2024,
Номер
5(1)
Опубликована: Июль 20, 2024
Abstract
Necessary
diversification
of
battery
chemistry
and
related
cell
design
call
for
investigation
more
exotic
materials
configurations,
such
as
solid-state
potassium
batteries.
In
the
core
their
development
lies
necessity
discovering
new
electrochemically
efficient
inorganic
electrolytes.
This
review
focuses
on
suitable
chemical
structures,
fundamental
properties
status
synthesis,
electrochemical
performance,
contemporary
characterization
techniques
modeling
efforts
Batteries,
Год журнала:
2024,
Номер
10(7), С. 255 - 255
Опубликована: Июль 17, 2024
Solid-state
batteries
(SSBs)
have
emerged
as
a
promising
alternative
to
conventional
lithium-ion
batteries,
with
notable
advantages
in
safety,
energy
density,
and
longevity,
yet
the
environmental
implications
of
their
life
cycle,
from
manufacturing
disposal,
remain
critical
concern.
This
review
examines
impacts
associated
production,
use,
end-of-life
management
SSBs,
starting
extraction
processing
raw
materials,
highlights
significant
natural
resource
consumption,
emissions.
A
comparative
analysis
traditional
battery
underscores
hazards
novel
materials
specific
SSBs.
The
also
assesses
operational
impact
SSBs
by
evaluating
efficiency
carbon
footprint
comparison
followed
an
exploration
challenges,
including
disposal
risks,
regulatory
frameworks,
shortcomings
existing
waste
practices.
focus
is
placed
on
recycling
reuse
strategies,
reviewing
current
methodologies
like
mechanical,
pyrometallurgical,
hydrometallurgical
processes,
along
emerging
technologies
that
aim
overcome
barriers,
while
analyzing
economic
technological
challenges
these
processes.
Additionally,
real-world
case
studies
are
presented,
serving
benchmarks
for
best
practices
highlighting
lessons
learned
field.
In
conclusion,
paper
identifies
research
gaps
future
directions
reducing
underscoring
need
interdisciplinary
collaboration
advance
sustainable
SSB
contribute
balancing
advancements
stewardship,
thereby
supporting
transition
more
future.
