Journal of Physics Energy,
Journal Year:
2024,
Volume and Issue:
7(1), P. 012001 - 012001
Published: Nov. 14, 2024
Abstract
Flexible
wearable
devices
have
gained
increasing
attention
in
the
field
of
health
and
fitness
monitoring
because
their
biocompatibility
ability
to
collect
biomarkers
seamlessly
instantly.
Consequently,
a
new
research
direction
has
emerged
on
how
power
these
portable
electronic
devices.
Currently,
majority
are
powered
by
lithium-ion
batteries
(LIBs).
However,
owing
safety
concerns
bulky
size
LIBs,
there
is
growing
demand
for
sustainable,
light,
supplies.
Thus,
sweat-activated
(SABs)
were
recently
proposed
as
source
generation
energy
storage.
To
validate
feasibility
using
SABs
devices,
we
briefly
recalled
history
development
recent
years,
well
present
outcomes.
This
review
overviews
three
categories
(conventional-redox
batteries,
metal-air
others),
which
based
two
anode
materials
(Magnesium
Zinc)
working
mechanism
diverse
was
interspersed
throughout
discussion.
Moreover,
electrolytes
suitable
substrates
integrating
into
thoroughly
discussed.
Furthermore,
various
SAB
application
scenarios
reviewed.
comprehensive
will
not
only
offer
insights
current
state
technology
but
also
provide
valuable
guidance
suggestions
future
advancements
applications
this
field.
Small,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Sept. 23, 2024
Aqueous
Zn-ion
batteries
are
promising
and
efficient
energy
storage
systems
owing
to
their
low
cost,
high
safety,
satisfactory
capacity.
However,
the
instability
of
Zn
metal
anodes,
caused
by
dendritic
growth
parasitic
side
reactions,
hinders
practical
application.
In
this
study,
a
nanophase-separated
block
copolymer
layer
that
enhances
reversibility
anodes
is
introduced.
This
consists
two
components:
high-performance
engineering-plastic-based
hydrophobic
exhibiting
excellent
mechanical
properties
chemical
stability,
hydrophilic
significantly
improves
interfacial
stability
anode
selectively
permeating
ions
through
separated
nanophase
channels.
Through
an
improved
electrochemical
system
scalable
fabrication
process,
provides
feasible
approach
for
application
in
aqueous
systems.
The
demand
for
efficient
large-scale
energy
storage
necessitates
high-energy-density
batteries,
making
research
on
high-voltage
electrolytes
particularly
important.
In
this
article,
ethyl
isopropyl
sulfone
(ES),
which
has
a
high
dielectric
constant,
is
added
to
traditional
carbonate-based
electrolyte
solvents
and
analyzed.
Based
calculated
analyzed
results,
different
proportions
of
ES
are
the
conventional
electrolyte.
performance,
influence
surface
electrode,
active
material
structure
after
cycling,
electrochemical
behavior,
impedance
electrode
were
studied
systematically.
As
result,
addition
applied
in
lithium-ion
batteries
exhibits
excellent
properties.
These
results
will
provide
support
application
additives
increasing
decomposition
voltage
battery
improving
cycle
stability.
EcoEnergy,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Dec. 15, 2024
Abstract
One
of
the
most
promising
electrochemical
energy
storage
technologies,
aqueous
zinc
ion
batteries
(AZIBs),
is
garnering
increasing
attention
due
to
their
inherent
safety,
high
sustainability,
and
low
cost.
However,
challenges
posed
by
dendrite
formation
side
reactions
resulting
from
uneven
deposition
metal
anodes
significantly
impede
reversibility
cycling
stability
AZIBs.
Given
influence
crystallographic
anisotropy
on
diversity
deposited
morphology
crystal
orientation,
a
thorough
understanding
intrinsic
texture
crucial
in
achieving
dendrite‐free
anode.
This
review
highlights
groundbreaking
efforts
significant
advancements
promoting
orientational
electrodeposition
zinc,
encompassing
fundamental
electrocrystallization
theories
as
well
approaches
for
textured
electrodeposition.
The
goal
provide
comprehensive
crystallography,
electrochemistry,
induction
mechanisms
involved
controlling
sustainable
Lastly,
four
critical
research
aspects
are
proposed
facilitate
commercialization
reliable
Journal of Physics Energy,
Journal Year:
2024,
Volume and Issue:
7(1), P. 012001 - 012001
Published: Nov. 14, 2024
Abstract
Flexible
wearable
devices
have
gained
increasing
attention
in
the
field
of
health
and
fitness
monitoring
because
their
biocompatibility
ability
to
collect
biomarkers
seamlessly
instantly.
Consequently,
a
new
research
direction
has
emerged
on
how
power
these
portable
electronic
devices.
Currently,
majority
are
powered
by
lithium-ion
batteries
(LIBs).
However,
owing
safety
concerns
bulky
size
LIBs,
there
is
growing
demand
for
sustainable,
light,
supplies.
Thus,
sweat-activated
(SABs)
were
recently
proposed
as
source
generation
energy
storage.
To
validate
feasibility
using
SABs
devices,
we
briefly
recalled
history
development
recent
years,
well
present
outcomes.
This
review
overviews
three
categories
(conventional-redox
batteries,
metal-air
others),
which
based
two
anode
materials
(Magnesium
Zinc)
working
mechanism
diverse
was
interspersed
throughout
discussion.
Moreover,
electrolytes
suitable
substrates
integrating
into
thoroughly
discussed.
Furthermore,
various
SAB
application
scenarios
reviewed.
comprehensive
will
not
only
offer
insights
current
state
technology
but
also
provide
valuable
guidance
suggestions
future
advancements
applications
this
field.
