The Chemical Record,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Nov. 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.
Chemistry - An Asian Journal,
Journal Year:
2025,
Volume and Issue:
unknown
Published: April 21, 2025
Abstract
Through
its
remarkable
mechanical,
electrical,
and
thermal
qualities,
graphene
has
become
a
revolutionary
material
in
electronics.
Sustainable
synthesis
from
biomass
residues
offers
possible
path
toward
adhering
to
the
demand
for
economical
ecologically
friendly
production
methods.
The
present
study
thoroughly
examines
numerous
sources
used
synthesis,
such
as
plant‐derived
materials,
agricultural
waste,
other
organic
leftovers.
benefits
drawbacks
of
several
methods
are
examined,
including
pyrolysis,
chemical
exfoliation,
hydrothermal
carbonization.
also
explores
uses
produced
electronics,
sensors,
energy
storage
devices,
electronic
devices
with
flexibility,
electromagnetic
interference
(EMI)
shielding.
This
review
highlights
how
biomass‐based
can
revolutionize
electronics
sector
by
bridging
gap
between
applications,
techniques,
supplies.
Industrial Chemistry and Materials,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Jan. 1, 2024
Elaeagnus
angustifolia
gum
offers
a
good
polysaccharide
biomass
source
for
producing
porous
biochar.
The
incorporation
of
CoO
cracked
nanoplate
and
the
biochar
gave
promising
application
in
analysis
clinical
urine.
New Journal of Chemistry,
Journal Year:
2024,
Volume and Issue:
48(37), P. 16289 - 16296
Published: Jan. 1, 2024
The
porous
carbon
material
prepared
from
agaric
biomass
was
combined
with
zinc
oxide
nanorods
to
obtain
an
electrochemical
sensor,
which
could
be
used
detect
PA,
DA
and
luteolin.
Critical Reviews in Analytical Chemistry,
Journal Year:
2024,
Volume and Issue:
unknown, P. 1 - 26
Published: Sept. 27, 2024
In
recent
years,
biomass
carbon
materials
have
received
widespread
attention
in
the
field
of
electrochemical
sensors.
As
a
new
type
renewable
green
energy,
has
advantages
low
cost
and
abundant
resources.
After
special
treatment,
it
can
be
used
as
an
ideal
electrode
material.
Since
diverse
sources
their
morphology
is
difficult
to
control,
researchers
conducted
in-depth
research
on
preparation
process,
regulation
application.
This
review
summarizes
different
structures
methods
explores
applications
these
Modification
through
pretreatment,
physical
chemical
activation,
heteroatom
doping,
metal
compound
composite
other
make
up
for
deficiencies
its
pore
structure,
electrical
conductivity
surface
wettability,
thereby
improving
performance.
The
effects
sources,
functional
groups,
constituent
elements
modification
morphology,
structure
properties
are
discussed,
this
material
biological
molecules,
heavy
ions
pesticide
residues
reviewed.
Biomass
carbon-based
show
great
application
potential
development
prospects
The Chemical Record,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Nov. 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.
