Chemistry - An Asian Journal,
Journal Year:
2024,
Volume and Issue:
19(20)
Published: July 17, 2024
Abstract
Stainless
steel
mesh
(SSM)
has
emerged
as
a
cornerstone
in
electrochemical
applications
owing
to
its
exemplary
versatility,
electrical
conductivity,
mechanical
robustness,
and
corrosion
resistance.
This
state‐of‐the‐art
review
delves
into
the
diverse
roles
of
SSM
across
spectrum
domains,
including
energy
conversion
storage
devices,
water
treatment
technologies,
sensors,
catalysis.
We
meticulously
explore
deployment
supercapacitors,
batteries,
fuel
cells,
highlighting
utility
current
collector,
electrode,
separator.
The
further
discusses
critical
significance
processes,
emphasizing
efficacy
supporting
membranes
facilitating
electrocoagulation,
well
novel
uses
sensing
catalysis,
which
include
electrosynthesis
bioelectrochemistry.
Each
section
delineates
recent
advancements,
identifies
inherent
challenges,
suggests
future
directions
for
leveraging
technologies.
comprehensive
showcases
state
knowledge
articulates
integration
with
emerging
materials
thereby
establishing
new
paradigm
sustainable
efficient
applications.
Through
analysis
insightful
recommendations,
this
positions
itself
seminal
contribution,
paving
way
researchers
practitioners
harness
full
potential
advancing
electrochemistry
frontiers.
Catalysts,
Journal Year:
2025,
Volume and Issue:
15(2), P. 163 - 163
Published: Feb. 11, 2025
The
excessive
use
of
ciprofloxacin,
an
antibiotic,
has
led
to
environmental
challenges
such
as
drug
resistance
and
severe
water
pollution,
necessitating
effective
mitigation
strategies.
Piezo-photocatalytic
technology
offers
a
sustainable
solution.
In
this
study,
BiVO4,
recognized
for
its
exceptional
visible
light
absorption
conductivity,
was
embedded
within
polyvinylidene
fluoride
(PVDF)
nanofibers
address
issues
secondary
pollution
enhance
material
recovery.
addition
peroxymonosulfate
(PMS)
further
improved
the
degradation
process
by
generating
highly
reactive
sulfate
radicals
(•SO4−),
which
acted
synergistically
with
piezoelectric
effects
pollutant
breakdown.
Under
combined
stir,
illumination,
PMS
activation,
BiVO4
achieved
40%
higher
ciprofloxacin
efficiency
compared
mechanical
stir
alone.
This
improvement
is
attributed
generation
polarization
charges
at
both
ends
•SO4−,
promoted
efficient
electron-hole
separation
oxidative
degradation.
study
introduces
novel
approach
piezo-photocatalytic
treatment
using
flexible
membrane
materials
enhancement.
EcoEnergy,
Journal Year:
2025,
Volume and Issue:
unknown
Published: March 4, 2025
ABSTRACT
Biomass‐derived
carbons
are
eco‐friendly
and
sustainable
materials,
making
them
ideal
for
supercapacitors
due
to
their
high
surface
area,
excellent
conductivity,
cost‐effectiveness,
environmental
benefits.
This
review
provides
valuable
insights
into
biomass‐derived
carbon
modified
supercapacitors,
integrating
both
experimental
results
theoretical
calculations.
begins
by
discussing
the
origins
of
in
including
plant‐based,
food
waste‐derived,
animal‐origin,
microorganism‐generated
sources.
Then,
this
presents
strategies
improve
performance
heteroatom
doping,
functionalization,
hybrid
composite
construction.
Furthermore,
analyzes
functions
its
pure
form
as
materials.
The
also
explores
composites
derived
from
biomass‐based
carbon,
carbon/MXenes,
carbon/MOFs,
carbon/graphene,
carbon/conductive
polymers,
carbon/transition
metal
oxides,
carbon/hydroxides,
providing
a
thorough
investigation.
Most
importantly,
offers
an
innovative
summary
analysis
role
through
calculations,
concentrating
on
four
key
aspects:
energy
band
structure,
density
states,
electron
cloud
density,
adsorption
energy.
Finally,
concludes
future
research
directions
biomass
carbon‐based
discovery
novel
tailoring
functional
groups,
fabricating
high‐performance
exploring
ion
transfer
mechanisms,
enhancing
practical
applications.
In
summary,
exploration
sources,
functions,
mechanisms
research.
Molecules,
Journal Year:
2024,
Volume and Issue:
29(9), P. 2081 - 2081
Published: April 30, 2024
This
comprehensive
review
addresses
the
need
for
sustainable
and
efficient
energy
storage
technologies
against
escalating
global
demand
environmental
concerns.
It
explores
innovative
utilization
of
waste
materials
from
oil
refineries
coal
processing
industries
as
precursors
carbon-based
electrodes
in
next-generation
systems,
including
batteries
supercapacitors.
These
waste-derived
carbon
materials,
such
semi-coke,
gasification
fine
ash,
tar
pitch,
petroleum
coke,
vacuum
residue,
offer
a
promising
alternative
to
conventional
electrode
materials.
They
present
an
optimal
balance
high
content
enhanced
electrochemical
properties
while
promoting
sustainability
through
effectively
repurposing
hydrocarbon
industries.
systematically
examines
recent
advancements
fabricating
applying
electrodes.
delves
into
methodologies
converting
industrial
by-products
high-quality
electrodes,
with
particular
emphasis
on
carbonization
activation
processes
tailored
enhance
performance
derived
Key
findings
indicate
that
higher
temperatures
may
impede
development
porous
structure,
using
KOH
activating
agent
has
proven
effective
developing
mesoporous
structures
conducive
ion
transport
storage.
Moreover,
incorporating
heteroatom
doping
(with
elements
sulfur,
potassium,
nitrogen)
shown
promise
enhancing
surface
interactions
facilitating
diffusion
process
increased
availability
active
sites,
thereby
demonstrating
potential
improved
capabilities.
The
these
is
evaluated
across
various
configurations
electrolytes.
Challenges
future
directions
are
identified,
highlighting
deeper
understanding
microstructural
characteristics
influence
advocating
interdisciplinary
research
achieve
precise
control
over
material
properties.
contributes
advancing
technology
promotes
by
valuable
resources
underscores
sustainably
meeting
demands.
Batteries,
Journal Year:
2024,
Volume and Issue:
10(7), P. 230 - 230
Published: June 26, 2024
Ni3S2
is
a
kind
of
transition
metal
sulfide
(TMD)
with
excellent
electrical
conductivity
and
electrochemical
activity.
To
further
enhance
the
specific
capacity
Ni3S2-based
supercapacitors,
we
synthesize
several
nanosheet-decorated
Ni3S2@NiMo-LDH
nanostructures
by
combination
hydrothermal
electrodeposition
processes.
The
mesoporous
structure
provides
large
number
electroactive
sites,
which
shortens
charge
transfer
distance
increases
surface
area
electrode
materials.
assembled
asymmetric
supercapacitor
shows
an
energy
density
62.8
W
h
kg−1
at
2701.6
long-term
cycling
stability.
