The Chemical Record,
Год журнала:
2024,
Номер
unknown
Опубликована: Ноя. 11, 2024
The
ongoing
global
shift
towards
sustainability
in
electrical
engineering
necessitates
novel
materials
that
offer
both
ecological
and
technical
benefits.
Biomass-derived
carbon
(BCMs)
are
emerging
as
cornerstones
this
transition
due
to
their
sustainability,
cost-effectiveness,
versatile
properties.
This
review
explores
the
expansive
role
of
BCMs
across
various
applications,
emphasizing
transformative
impact
potential
fostering
a
sustainable
technological
ecosystem.
fundamentals
investigated,
including
unique
structures,
diverse
synthesis
procedures,
significant
electrochemical
A
detailed
examination
recent
innovations
BCM
applications
for
energy
storage,
such
batteries
supercapacitors,
pivotal
developing
advanced
electronic
components
like
sensors,
detectors,
electromagnetic
interference
shielding
composites
has
been
covered.
superior
conductivities,
tunable
surface
chemistries,
mechanical
properties
compared
traditional
sources.
These
can
be
further
enhanced
through
innovative
doping
functionalization
techniques.
Moreover,
identifies
challenges
related
scalability
uniformity
proposes
future
research
directions
overcome
these
hurdles.
By
integrating
insights
from
studies
with
forward-looking
perspective,
paper
sets
stage
next
generation
solutions
powered
by
biomass-derived
materials,
aligning
advancement
environmental
stewardship.
RSC Advances,
Год журнала:
2024,
Номер
14(25), С. 17628 - 17663
Опубликована: Янв. 1, 2024
Owing
to
their
attractive
energy
density
of
about
8.1
kW
h
kg
−1
and
specific
capacity
2.9
A
g
,
aluminum–air
(Al–air)
batteries
have
become
the
focus
research.
Abstract
The
community
is
exploring
sustainable
alternatives
for
grid‐scale
energy
storage.
Besides
lithium‐ion
batteries
(LIBs),
such
technologies
with
a
focus
on
sustainability
aspects
offer
only
limited
solution
Rechargeable
metal‐air
(MABs)
based
affordable
abundant
multivalent
metal
anodes
in
aqueous
medium
provide
promising
theoretical
metrics,
as
volumetric
capacity,
but
do
not
completely
fulfill
their
potential
when
scaled
from
lab
to
commercial
products.
Both
the
anode
and
air
cathode
need
be
addressed:
corrosion,
hydrogen
evolution
reaction
(HER)
during
charging,
passivation
all
diminish
anode's
effective
density
shelf
life,
while
cathode's
challenges
include
sluggish
kinetics,
low
efficiency,
poor
stability.
Nevertheless,
this
Perspective
highlights
iron‐air
MABs
an
appealing
alternative
storage,
since
iron
affordable,
recyclable,
has
multielectron
reversible
redox
activity,
historically
rich
experience
production
processing,
safe
handle.
Given
that
further
research
will
directed
composition
design
of
electrolytes
electrodes,
it
may
lead
advances
scaling
commercialization,
well
reducing
environmental
impact
secondary
utilized
storage
next
decades.
Journal of Materials Chemistry A,
Год журнала:
2023,
Номер
11(46), С. 25115 - 25135
Опубликована: Янв. 1, 2023
By
investigating
the
technological
development
of
metal–air
batteries
in
terms
specific
energy,
cycle
life,
fast
charging,
environmental
adaptability
and
flexibility,
we
propose
application
for
powering
robotic
devices.
RSC Advances,
Год журнала:
2024,
Номер
14(44), С. 32328 - 32338
Опубликована: Янв. 1, 2024
The
EDTA-2Na
additive
can
be
efficiently
adsorbed
onto
the
Al
electrode
surface
to
provide
a
shielding
layer.
This
decreased
occurrence
of
hydrogen
evolution
side
reactions
and
improved
battery
performance.