ACS symposium series,
Journal Year:
2024,
Volume and Issue:
unknown, P. 81 - 105
Published: June 17, 2024
Energy
conversion
and
storage
devices
(ECSDs)
made
from
clean,
green
eco-friendly
agricultural/bio
waste
is
achieving
more
attention
of
researchers/scientists
due
to
its
recyclability,
low
cost,
sustainability,
excellent
supercapacitance
performance.
The
role
electrolytes
(GEs)
(such
as,
quasi/novel
solid),
separators,
current
collectors,
electrode
materials
(for
instance,
biomass
waste-derived
activated
carbon
(AC),
reduced
graphene-oxide
(rGO),
metal-oxides
(MOs),
metal-organic
frameworks
(MOFs),
conducting
polymers
(CPs))
for
ECSDs
highlighted
in
this
chapter.
depletion
energy
supplies
trashing
agricultural
has
become
a
worldwide
concern,
throbbing
the
world's
economy
ecosystem
via
fuel
crisis
pollution
hence
idea
Green/Eco-Friendly
Supercapacitors
(GSs)
pointed
out
In
last
section,
future
research
prospects
challenges
electrode-electrolyte
based
at
industrial
scale
sector
are
also
projected,
keeping
view
their
health
related
concerns
disposal.
ACS Omega,
Journal Year:
2024,
Volume and Issue:
unknown
Published: July 18, 2024
MXenes
with
their
wide
range
of
tunability
and
good
surface
chemistry
provide
unique
distinctive
characteristics
offering
potential
employment
in
various
aspects
energy
management
applications.
These
high-performance
materials
have
attracted
considerable
attention
recent
decades
due
to
outstanding
characteristics.
In
the
literature,
most
work
is
related
specific
methods
for
preparation
MXenes.
this
Review,
we
present
a
detailed
discussion
on
synthesis
through
different
etching
routes
involving
acids,
such
as
hydrochloric
acid,
hydrofluoric
lithium
fluoride,
non-acidic
alkaline
solution,
electrochemical,
molten
salt
methods.
Furthermore,
concise
overview
structural,
optical,
electronic,
magnetic
properties
provided
corresponding
role
supporting
high
thermal,
chemical,
mechanical,
environmental,
electrochemical
stability.
Additionally,
maintaining
thermal
performance
photovoltaic
systems
(PV/T),
wearable
light
heaters,
solar
water
desalination,
batteries,
supercapacitors
also
briefly
discussed.
A
techno-economic
life
cycle
analysis
analyze
sustainability,
scalability,
commercialization
facilitate
comprehensive
array
systems.
Lastly,
technology
readiness
level
defined,
future
recommendations
are
further
utilization
niche
The
strives
link
process
economics
Physical Chemistry Chemical Physics,
Journal Year:
2023,
Volume and Issue:
25(28), P. 18584 - 18608
Published: Jan. 1, 2023
The
explosive
development
of
MXenes
for
example
by
tuning
the
bandgap
and
wakening
their
magnetic
properties
could
simply
pave
way
integration
in
device
configurations
suitable
spintronic
devices.
Sensors,
Journal Year:
2023,
Volume and Issue:
23(21), P. 8674 - 8674
Published: Oct. 24, 2023
MXenes
are
a
class
of
2D
transition-metal
carbides,
nitrides,
and
carbonitrides
with
exceptional
properties,
including
substantial
electrical
thermal
conductivities,
outstanding
mechanical
strength,
considerable
surface
area,
rendering
them
an
appealing
choice
for
gas
sensors.
This
manuscript
provides
comprehensive
analysis
heterostructures
based
on
employed
in
gas-sensing
applications
focuses
addressing
the
limited
understanding
sensor
mechanisms
MXene-based
while
highlighting
their
potential
to
enhance
performance.
The
begins
broad
overview
both
pristine
materials
heterostructures.
Subsequently,
it
explores
various
features
heterostructures,
composites
other
prospects
applications.
Additionally,
evaluates
different
engineering
strategies
compares
advantages
discussing
limitations
current
state-of-the-art
Ultimately,
this
review
seeks
foster
collaboration
knowledge
exchange
within
field,
facilitating
development
high-performance
sensors
MXenes.
