Nano-Micro Letters,
Journal Year:
2024,
Volume and Issue:
16(1)
Published: Jan. 4, 2024
Abstract
Achieving
a
highly
robust
zinc
(Zn)
metal
anode
is
extremely
important
for
improving
the
performance
of
aqueous
Zn-ion
batteries
(AZIBs)
advancing
“carbon
neutrality”
society,
which
hampered
by
uncontrollable
growth
Zn
dendrite
and
severe
side
reactions
including
hydrogen
evolution
reaction,
corrosion,
passivation,
etc.
Herein,
an
interlayer
containing
fluorinated
zincophilic
covalent
organic
framework
with
sulfonic
acid
groups
(COF-S-F)
developed
on
(Zn@COF-S-F)
as
artificial
solid
electrolyte
interface
(SEI).
Sulfonic
group
(−
SO
3
H)
in
COF-S-F
can
effectively
ameliorate
desolvation
process
hydrated
ions,
three-dimensional
channel
fluoride
(-F)
provide
interconnected
channels
favorable
transport
ions
ion-confinement
effects,
endowing
Zn@COF-S-F
dendrite-free
morphology
suppressed
reactions.
Consequently,
symmetric
cell
stably
cycle
1,000
h
low
average
hysteresis
voltage
(50.5
mV)
at
current
density
1.5
mA
cm
−2
.
Zn@COF-S-F|MnO
2
delivers
discharge
specific
capacity
206.8
mAh
g
−1
1.2
A
after
800
cycles
high-capacity
retention
(87.9%).
Enlightening,
building
SEI
metallic
surface
targeted
design
has
been
proved
effective
strategy
to
foster
practical
application
high-performance
AZIBs.
Advanced Energy Materials,
Journal Year:
2023,
Volume and Issue:
13(28)
Published: June 17, 2023
Abstract
Aqueous
Zn‐ion
batteries
(AZIBs)
have
attracted
much
attention
due
to
their
excellent
safety,
cost‐effectiveness,
and
eco‐friendliness
thereby
being
considered
as
one
of
the
most
promising
candidates
for
large‐scale
energy
storage.
Zn
metal
anodes
with
a
high
gravimetric/volumetric
capacity
are
indispensable
advanced
AZIBs.
However,
pristine
encounter
severe
challenges
in
achieving
adequate
cycling
stability,
including
dendrite
growth,
hydrogen
evolution
reaction,
self‐corrosion,
by‐product
formation.
Because
all
these
reactions
closely
related
electrolyte/Zn
interface,
subtle
interface
engineering
is
important.
Many
strategies
targeted
been
developed.
In
this
review,
timely
update
on
perspectives
summarized,
especially
focusing
controllable
synthesis
Zn,
surface
engineering,
electrolyte
formulation,
separator
design.
Furthermore,
corresponding
internal
principles
clarified,
which
helpful
help
seek
new
strategies.
Finally,
future
development
practical
AZIBs
discussed,
conducting
situ
testing,
unification
battery
models,
some
boundary
issues,
etc.
This
review
expected
guide
provi
beacon
light
direction
aqueous
zinc
ion
batteries.
Advanced Functional Materials,
Journal Year:
2023,
Volume and Issue:
34(5)
Published: April 25, 2023
Abstract
Aqueous
zinc
ion
batteries
(AZIBs)
with
high
safety,
low
cost,
and
eco‐friendliness
advantages
show
great
potential
in
large‐scale
energy
storage
systems.
However,
their
practical
application
is
hindered
by
Columbic
efficiency
unstable
anode
resulting
from
the
side
reactions
deterioration
of
dendrites.
Herein,
tripropylene
glycol
(TG)
chosen
as
a
dual‐functional
organic
electrolyte
additive
to
improve
reversibility
AZIBs
significantly.
Importantly,
ab
initio
molecular
dynamics
theoretical
simulations
experiments
such
situ
electrochemical
impedance
spectroscopy,
synchrotron
radiation‐based
Fourier
transform
infrared
spectroscopy
confirm
that
TG
participates
solvation
sheath
Zn
2+
,
regulating
overpotential
inhibiting
reactions;
meanwhile,
inhibits
dendrites
modifies
direction
deposition
constructing
an
adsorbed
layer
on
anode.
Consequently,
Zn‐MnO
2
full
cell
exhibited
specific
capacity
124.48
mAh
g
‐1
after
1000
cycles
at
current
density
4
A
.
This
quantitative
regulation
for
suitable
anode,
its
easy
scalability
process
can
be
immediate
benefit
dendrite‐free,
high‐performance,
low‐cost
Advanced Energy Materials,
Journal Year:
2022,
Volume and Issue:
13(5)
Published: Dec. 13, 2022
Abstract
Metal
zinc
is
recognized
as
a
promising
anode
candidate
for
aqueous
zinc‐ion
batteries
(AZIBs),
however,
dendrites
and
byproducts
formation
severe
deteriorate
its
reversibility
practical
lifespan.
Herein,
polydopamine
(PDA)
layer,
which
offers
the
dual
effects
of
fast
desolvation
ion
confinement,
constructed
on
surface
Zn
efficient
AZIBs.
The
abundant
polar
functional
groups
in
PDA
significantly
enhance
interfacial
contact
media,
reduces
number
water
molecules
reaching
through
desolvation,
thus
lowering
energy
barrier
2+
migration.
Furthermore,
porous
coating
controls
flux
via
ion‐confinement
effect,
thereby
accelerating
kinetics
surface.
Consequently,
Zn@PDA
exhibits
improved
deposition
(nucleation
potential
only
32.6
mV
vs
50.2
bare
Zn)
compared
with
at
2.0
mA
cm
−2
,
dendrite‐free
negligible
byproduct
formation.
When
paired
MnO
2
cathode,
Zn@PDA//MnO
cell
delivers
high
discharge
capacity
long
cycle
stability
without
significant
performance
deterioration
over
1000
cycles
1.0
A
g
−1
.
Additionally,
demonstrates
excellent
shelving‐restoring
performance.
Advanced Materials,
Journal Year:
2023,
Volume and Issue:
35(18)
Published: Feb. 14, 2023
Ultrathin
separators
are
indispensable
to
high-energy-density
zinc-ion
batteries
(ZIBs),
but
their
easy
failure
caused
by
zinc
dendrites
poses
a
great
challenge.
Herein,
23
µm-thick
functional
ultrathin
(FUSs),
realizing
superb
electrochemical
stability
of
anodes
and
outstanding
long-term
durability
separators,
reported.
In
the
FUSs,
an
mechanically
strong
nanoporous
membrane
substrate
benefits
fast
flux-homogenized
Zn2+
transport,
while
metal-organic
framework
(MOF)-derived
C/Cu
nanocomposite
decoration
layer
provides
rich
low-barrier
nucleation
sites,
thereby
synergistically
stabilizing
inhibit
dendrite-caused
separator
failure.
Investigation
affinity
MOF-derived
nanocomposites
unravels
high
zincophilicity
heteroatom-containing
interfaces.
Zinc
coupled
with
FUSs
present
superior
stability,
whose
operation
lifetime
exceeds
2000
h
at
1
mA
cm-2
600
10
,
40-50
times
longer
than
that
using
glass-fiber
separators.
The
reliability
in
ZIBs
hybrid
supercapacitors
is
also
validated.
This
work
proposes
new
strategy
stabilize
theoretical
guidance
developing
for
zinc-based
energy
storage.
Advanced Energy Materials,
Journal Year:
2023,
Volume and Issue:
13(20)
Published: April 7, 2023
Abstract
Aqueous
zinc‐ion
batteries
(ZIBs)
enjoy
a
good
reputation
for
being
safe,
affordable
to
produce,
and
ecologically
friendly
due
the
use
of
water‐based
electrolytes.
The
main
factors
restricting
development
ZIBs,
however,
are
negative
effects
dendrite
deposition
on
zinc
anode
dissolution
common
cathodes
such
as
Mn
V‐based
cathodes.
Various
techniques
have
been
used
address
these
issues,
including
regulating
electrolyte
concentration
or
solvation
structure,
developing
coating
current
collector
lessen
growth,
improving
structural
stability
cathode.
Recently,
functionalized
separator
strategies
gained
popularity
effective
ways
improve
ZIB
performance.
is
also
practical
technique
save
costs
increase
volumetric
energy
density
battery
by
substituting
usual
thick
expensive
glass
fiber
separator.
separators
in
ZIBs
subject
ongoing
research,
this
work
presents
most
recent
findings
systematic
manner,
focusing
both
methods
prepare
modify
them.
Finally,
brief
explanation
constraints
future
potential
provided.
Advanced Science,
Journal Year:
2023,
Volume and Issue:
10(12)
Published: Jan. 22, 2023
Aqueous
zinc-ion
batteries
(AZIBs)
stand
out
among
many
monovalent/multivalent
metal-ion
as
promising
new
energy
storage
devices
because
of
their
good
safety,
low
cost,
and
environmental
friendliness.
Nevertheless,
there
are
still
great
challenges
to
exploring
new-type
cathode
materials
that
suitable
for
Zn
Advanced Functional Materials,
Journal Year:
2023,
Volume and Issue:
33(14)
Published: Jan. 25, 2023
Abstract
Aqueous
zinc‐ion
batteries
(ZIBs)
with
metallic
Zn
anodes
have
emerged
as
promising
candidates
for
large‐scale
energy
storage
systems
due
to
their
inherent
safety
and
competitive
capacity.
However,
challenges
of
anodes,
including
dendrite
growth
side
reactions,
impede
the
commercialization
ZIBs.
The
regulation
Zn/electrolyte
interphase
is
a
feasible
method
achieve
high‐performance
ZIBs
prolonged
lifespan
high
reversibility.
Considering
as‐made
artificial
result
combination
protection
materials,
mechanisms,
construction
techniques,
this
review
comprehensively
summarizes
recent
progress
modulation
provides
systematic
guideline
constructing
ideal
layers.
In
addition
revealing
entanglement
relationship
between
failure
behaviors
timely
concluding
emerging
mechanisms
stable
interphase,
also
evaluates
techniques
in
regard
commercialization,
engineering
workflow,
strength,
shortcoming,
applicable
effect,
aiming
pave
way
practical
application.
Finally,
presents
noteworthy
points
layer.
It
expected
that
can
enlighten
researchers
not
only
explore
interphases
application,
but
design
other
metal
aqueous
similar
behaviors.
Angewandte Chemie International Edition,
Journal Year:
2022,
Volume and Issue:
62(5)
Published: Nov. 30, 2022
Abstract
The
rampant
dendrites
and
hydrogen
evolution
reaction
(HER)
resulting
from
the
turbulent
interfacial
at
anode/electrolyte
are
main
culprits
of
short
lifespan
low
Coulombic
efficiency
Zn
metal
batteries.
In
this
work,
a
versatile
protective
coating
with
excellent
zincophilic
amphoteric
features
is
constructed
on
surface
(ZP@Zn)
as
dendrite‐free
anodes.
This
kind
possesses
advantages
reversible
proton
storage
rapid
desolvation
kinetics,
thereby
mitigating
HER
facilitating
homogeneous
nucleation
concomitantly.
Furthermore,
space
charge
polarization
effect
promotes
redistribution
to
achieve
uniform
deposition.
Accordingly,
ZP@Zn
symmetric
cell
manifests
reversibility
an
ultrahigh
cumulative
plating
capacity
4700
mAh
cm
−2
stable
cycling
80
%
depth
discharge
(DOD).
ZP@Zn//V
6
O
13
pouch
also
reveals
superior
stability
high
326.6
g
−1
.
Nano-Micro Letters,
Journal Year:
2023,
Volume and Issue:
15(1)
Published: Oct. 26, 2023
Biocompatible
devices
are
widely
employed
in
modernized
lives
and
medical
fields
the
forms
of
wearable
implantable
devices,
raising
higher
requirements
on
battery
biocompatibility,
high
safety,
low
cost,
excellent
electrochemical
performance,
which
become
evaluation
criteria
toward
developing
feasible
biocompatible
batteries.
Herein,
through
conducting
implantation
tests
leakage
scene
simulations
New
Zealand
rabbits,
zinc
sulfate
electrolyte
is
proved
to
exhibit
biosecurity
turns
out
be
one
ideal
salts
for
zinc-ion
batteries
(ZIBs).
Furthermore,
order
mitigate
notorious
dendrite
growth
hydrogen
evolution
mildly
acidic
as
well
improve
their
operating
stability,
Sn
hetero
nucleus
introduced
stabilize
anode,
not
only
facilitates
planar
deposition,
but
also
contributes
overpotential.
Finally,
a
long
lifetime
1500
h
symmetrical
cell,
specific
capacity
150
mAh
g-1
under
0.5
A
Zn-MnO2
212
5
Zn-NH4V4O10
obtained.
This
work
may
provide
unique
perspectives
ZIBs
cell
components.
Energy & Environmental Science,
Journal Year:
2023,
Volume and Issue:
17(2), P. 369 - 385
Published: Nov. 29, 2023
This
review
systematically
summarizes
the
host-design
strategies
for
Zn
anodes
regarding
substrate
and
interface
fabrication,
aiming
to
provide
a
prospective
guideline
developing
high-performance
anodes.
