Hybrid Advances,
Journal Year:
2024,
Volume and Issue:
5, P. 100166 - 100166
Published: March 1, 2024
In
this
new
era,
the
cutting-edge
progress
of
numerous
technologies
for
modern
and
better
lifestyles
as
well
a
wide
range
aquatic
global
habitats
by
increasing
anthropogenic
activities
is
directly
responsible
contaminated
potable
water
edible
things,
which
are
hazardous
to
living
entities.
recent
decades,
there
has
been
lot
interest
in
several
research
groups
biomass
renewable
energy
source
or
biogenic
carbon-based
devices
medical
applications.
Biomass
such
wheat
straw
ash
(WSA),
rice
husk
(RHA),
sugarcane
bagasse
(SBA),
coconut
peal
(CPA),
sunflower
(SHA),
peanut
peel
(PPA),
walnut
(WPA)
waste
coffee
beans
contain
an
enormous
quantity
carbon,
ashes
can
be
utilized
generating
high-quality
nanomaterials
graphene
(Gr),
oxide
(GO)
CNTs
that
excellent
purity
from
combustion
by-products
total
process
practically
environmentally
beneficial
terms
CO2
emissions
warming.
The
unique
properties
nanostructures
play
vital
role
enhancing
performance
detection
tools
cancer
its
therapy
overcome
diseases.
Thus,
significance
carbon
allotropes
underlined,
with
particular
emphasis
on
nanostructured
healthcare
products
high-surface-area
adsorbents,
mechanically
stable
devices,
tailored
instinctive
micro-based
assist
avoiding
health
problem.
This
review
summarizes
affordable,
modern,
sophisticated
applications
using
high-valued
materials,
particularly
production
CNTs,
used
make
biomarkers,
biosensors,
bio-imaging,
gene
drug
delivery
systems,
initial
stage
treatment.
Chemical Reviews,
Journal Year:
2023,
Volume and Issue:
124(2), P. 318 - 419
Published: Dec. 6, 2023
Flexible
electronics
have
recently
gained
considerable
attention
due
to
their
potential
provide
new
and
innovative
solutions
a
wide
range
of
challenges
in
various
electronic
fields.
These
require
specific
material
properties
performance
because
they
need
be
integrated
into
variety
surfaces
or
folded
rolled
for
newly
formatted
electronics.
Two-dimensional
(2D)
materials
emerged
as
promising
candidates
flexible
unique
mechanical,
electrical,
optical
properties,
well
compatibility
with
other
materials,
enabling
the
creation
devices.
This
article
provides
comprehensive
review
progress
made
developing
devices
using
2D
materials.
In
addition,
it
highlights
key
aspects
scalable
production,
device
fabrication
processes
applications,
along
important
examples
demonstrations
that
achieved
breakthroughs
wearable
applications.
Finally,
we
discuss
opportunities,
current
challenges,
solutions,
future
investigative
directions
about
this
field.
Journal of Materials Chemistry A,
Journal Year:
2023,
Volume and Issue:
11(33), P. 17336 - 17372
Published: Jan. 1, 2023
The
emerging
smart
fibers
and
textiles
have
been
regarded
as
ideal
building
blocks
to
weave
flexible
wearable
electronics,
which
hold
great
promise
in
the
upcoming
artificial
intelligence
(AI)
Internet
of
Things
(IoT)
era.
Journal of Materials Chemistry B,
Journal Year:
2023,
Volume and Issue:
12(5), P. 1168 - 1193
Published: Dec. 21, 2023
A
biosensor
is
a
device
that
reacts
with
the
analyte
to
be
analyzed,
detects
its
concentration,
and
generates
readable
information,
which
plays
an
important
role
in
medical
diagnosis,
detection
of
physiological
indicators,
disease
prevention.
Nanomaterials
have
received
increasing
attention
fabrication
improvement
biosensors
due
their
unique
physicochemical
optical
properties.
In
this
paper,
properties
nanomaterials
such
as
size
effect,
electrical
properties,
advantages
field
biosensing
are
briefly
summarized,
application
can
effectively
improve
sensitivity
reduce
limit
biosensors.
The
commonly
used
gold
nanoparticles
(AuNPs),
carbon
nanotubes
(CNTs),
quantum
dots
(QDs),
graphene,
magnetic
nanobeads
for
applications
also
reviewed.
Besides,
two
main
types
using
involved
construction
working
principles
described,
toxicity
biocompatibility
future
direction
nanomaterial
discussed.
Journal of Materials Chemistry A,
Journal Year:
2024,
Volume and Issue:
12(16), P. 9296 - 9321
Published: Jan. 1, 2024
This
review
covers
recent
advancements
in
flexible
resistive
tactile
pressure
sensors,
including
operational
principles,
performance
metrics,
material
choices,
structural
design,
and
applications,
as
well
future
challenges.
Battery energy,
Journal Year:
2024,
Volume and Issue:
3(2)
Published: Jan. 8, 2024
Abstract
Wearable
electronics
are
expected
to
be
light,
durable,
flexible,
and
comfortable.
Many
fibrous,
planar,
tridimensional
structures
have
been
designed
realize
flexible
devices
that
can
sustain
geometrical
deformations,
such
as
bending,
twisting,
folding,
stretching
normally
under
the
premise
of
relatively
good
electrochemical
performance
mechanical
stability.
As
a
electrode
for
batteries
or
other
devices,
it
possesses
favorable
strength
large
specific
capacity
preserves
efficient
ionic
electronic
conductivity
with
certain
shape,
structure,
function.
To
fulfill
energy‐storage
much
effort
has
devoted
design
materials
characteristics.
This
review
attempts
critically
state
art
respect
electrodes
electrolyte,
device
corresponding
fabrication
techniques
well
applications
energy
storage
devices.
Finally,
limitations
preparation
methods,
functions,
working
conditions
in
future
were
discussed
presented.
Chemical Society Reviews,
Journal Year:
2024,
Volume and Issue:
53(15), P. 7784 - 7827
Published: Jan. 1, 2024
This
review
provides
the
state-of-the-art
solution-processed
metal
nanowire-based
flexible
transparent
electrodes
and
their
applications
in
optoelectronic
devices.
New Journal of Chemistry,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Jan. 1, 2025
Unlocking
sustainability
with
photoactive
graphene-based
advanced
materials
for
clean
energy
and
environment
our
present
posterity.
Green
solutions
aiming
at
scalability,
stability,
cost
effectiveness
are
provided
herein.
