Materials,
Journal Year:
2023,
Volume and Issue:
16(4), P. 1430 - 1430
Published: Feb. 8, 2023
Recently,
Prussian
blue
analogues
(PBAs)-based
anode
materials
(oxides,
sulfides,
selenides,
phosphides,
borides,
and
carbides)
have
been
extensively
investigated
in
the
field
of
energy
conversion
storage.
This
is
due
to
PBAs’
unique
properties,
including
high
theoretical
specific
capacity,
environmental
friendly,
low
cost.
We
thoroughly
discussed
formation
PBAs
conjunction
with
other
materials.
The
performance
composite
improves
electrochemical
its
storage
Furthermore,
new
insights
are
provided
for
manufacture
low-cost,
high-capacity,
long-life
battery
order
solve
difficulties
different
electrode
materials,
combined
advanced
manufacturing
technology
principles.
Finally,
their
composites’
future
challenges
opportunities
discussed.
Chemical Reviews,
Journal Year:
2023,
Volume and Issue:
123(13), P. 8718 - 8735
Published: June 20, 2023
Recycling
spent
lithium-ion
batteries
(LIBs)
is
becoming
a
hot
global
issue
due
to
the
huge
amount
of
scrap,
hazardous,
and
valuable
materials
associated
with
end-of-life
LIBs.
The
electrolyte,
accounting
for
10–15
wt
%
LIBs,
most
hazardous
substance
involved
in
recycling
Meanwhile,
components,
especially
Li-based
salts,
make
economically
beneficial.
However,
studies
electrolyte
still
account
only
small
fraction
number
LIB
papers.
On
other
hand,
many
more
about
have
been
published
Chinese
but
are
not
well-known
worldwide
limitations
language.
To
build
bridge
between
Western
academic
achievements
on
treatments,
this
Review
first
illustrates
urgency
importance
analyzes
reason
its
neglect.
Then,
we
introduce
principles
processes
collection
methods
including
mechanical
processing,
distillation
freezing,
solvent
extraction,
supercritical
carbon
dioxide.
We
also
discuss
separation
regeneration
an
emphasis
recovering
lithium
salts.
advantages,
disadvantages,
challenges
processes.
Moreover,
propose
five
viable
approaches
industrialized
applications
efficiently
recycle
electrolytes
that
combine
different
processing
steps,
ranging
from
heat
mechanochemistry
situ
catalysis,
discharging
dioxide
extraction.
conclude
discussion
future
directions
recycling.
This
will
contribute
efficiently,
environmentally
friendly,
economically.
Journal of Materials Chemistry A,
Journal Year:
2023,
Volume and Issue:
11(42), P. 22551 - 22589
Published: Jan. 1, 2023
Our
analysis
of
the
current
literature
shows
that
advances
in
extractive
technologies
for
U/Li
recovery
lie
at
intersection
between
molecular
simulation,
nanotechnology
and
materials
science,
electrochemistry,
membrane
engineering.
Journal of Materials Chemistry A,
Journal Year:
2024,
Volume and Issue:
12(19), P. 11235 - 11265
Published: Jan. 1, 2024
A
green
solvent
hybrid
system
will
bring
about
sustainable
development
in
the
battery
industry
by
efficiently
and
environmentally
friendly
recycling
of
valuable
resources
contained
waste
batteries.
ACS Materials Letters,
Journal Year:
2024,
Volume and Issue:
6(2), P. 640 - 647
Published: Jan. 22, 2024
There
have
been
a
massive
amount
of
spent
LiFePO4
batteries
produced
in
recent
years
because
is
widely
used
energy
storage
and
electric
vehicles,
which
need
to
be
recycled
urgently.
However,
considering
the
manufacturing
cost
LiFePO4,
traditional
metallurgical
technology
not
economical
recover
LiFePO4.
Moreover,
performance
directly
regenerated
materials
inferior
that
commercial
materials.
It
hinders
development
cathode
for
lithium-ion
batteries.
Herein,
with
severely
degraded
by
preoxidation
prilling
combine
cocoating
strategy.
The
fully
decomposed
binder
residual
carbon.
subsequent
regeneration
process
synthesized
spherical
carbon
Li3PO4
layer,
whose
electrochemical
comparable
This
method
dramatically
improves
rate
low
temperature
provides
new
scheme
reuse
LFP
