Characterization and Application of Nanomaterials,
Год журнала:
2023,
Номер
6(1)
Опубликована: Июнь 24, 2023
Graphene
oxide
can
be
referred
to
as
oxidized
graphene.
Similar
graphene,
graphene
possesses
remarkable
structural
features,
advantageous
properties,
and
technical
applications.
Among
polymeric
matrices,
conducting
polymers
have
been
categorized
for
p
conjugated
backbone
semiconducting
features.
In
this
context,
doping,
or
nano-additive
inclusion,
has
found
enhance
the
electrical
conduction
features
of
polymers.
Like
other
carbon
nanostructures
(fullerene,
nanotube,
etc.),
used
reinforce
matrices.
further
modified
into
several
derived
forms,
including
oxide,
reduced
functionalized
these,
identified
an
important
derivative
nanofiller
This
overview
covers
essential
aspects
progressions
in
sector
nanomaterials.
Since
importance
nanocomposites,
developed
aiming
at
conductive
polymer/graphene
nanocomposites.
The
novelty
article
relies
on
originality
design
outline,
review
framework,
recent
literature
gathering
compared
with
previous
reviews.
To
best
our
knowledge,
such
all-inclusive
focusing
fundamentals
developments
not
seen
before.
Due
structural,
morphological,
conducting,
specific
nanomaterials
applied
a
range
applications
supercapacitors,
photovoltaics,
corrosion
resistance,
etc.
Future
research
these
high-performance
nanocomposites
may
overcome
performance-related
challenges
facing
industrial
utilization.
Micromachines,
Год журнала:
2025,
Номер
16(5), С. 522 - 522
Опубликована: Апрель 28, 2025
Wearable
and
implantable
BioMEMSs
(biomedical
microelectromechanical
systems)
have
transformed
modern
healthcare
by
enabling
continuous,
personalized,
minimally
invasive
monitoring,
diagnostics,
therapy.
advanced
rapidly,
encompassing
a
diverse
range
of
biosensors,
bioelectronic
systems,
drug
delivery
platforms,
motion
tracking
technologies.
These
devices
enable
non-invasive,
real-time
monitoring
biochemical,
electrophysiological,
biomechanical
signals,
offering
personalized
proactive
solutions.
In
parallel,
BioMEMS
significantly
enhanced
long-term
targeted
delivery,
neurostimulation.
From
continuous
glucose
intraocular
pressure
to
programmable
bioelectric
implants
for
neuromodulation,
these
are
improving
precision
treatment
localized
This
review
explores
the
materials
technologies
driving
advancements
in
wearable
BioMEMSs,
focusing
on
their
impact
chronic
disease
management,
cardiology,
respiratory
care,
glaucoma
treatment.
We
also
highlight
integration
with
artificial
intelligence
(AI)
Internet
Things
(IoT),
paving
way
smarter,
data-driven
Despite
potential,
face
challenges
such
as
regulatory
complexities,
global
standardization,
societal
determinants.
Looking
ahead,
we
explore
emerging
directions
like
multifunctional
biodegradable
power
sources,
next-generation
point-of-care
diagnostics.
Collectively,
position
pivotal
enablers
future
patient-centric
systems.
Characterization and Application of Nanomaterials,
Год журнала:
2023,
Номер
6(1)
Опубликована: Июнь 24, 2023
Graphene
oxide
can
be
referred
to
as
oxidized
graphene.
Similar
graphene,
graphene
possesses
remarkable
structural
features,
advantageous
properties,
and
technical
applications.
Among
polymeric
matrices,
conducting
polymers
have
been
categorized
for
p
conjugated
backbone
semiconducting
features.
In
this
context,
doping,
or
nano-additive
inclusion,
has
found
enhance
the
electrical
conduction
features
of
polymers.
Like
other
carbon
nanostructures
(fullerene,
nanotube,
etc.),
used
reinforce
matrices.
further
modified
into
several
derived
forms,
including
oxide,
reduced
functionalized
these,
identified
an
important
derivative
nanofiller
This
overview
covers
essential
aspects
progressions
in
sector
nanomaterials.
Since
importance
nanocomposites,
developed
aiming
at
conductive
polymer/graphene
nanocomposites.
The
novelty
article
relies
on
originality
design
outline,
review
framework,
recent
literature
gathering
compared
with
previous
reviews.
To
best
our
knowledge,
such
all-inclusive
focusing
fundamentals
developments
not
seen
before.
Due
structural,
morphological,
conducting,
specific
nanomaterials
applied
a
range
applications
supercapacitors,
photovoltaics,
corrosion
resistance,
etc.
Future
research
these
high-performance
nanocomposites
may
overcome
performance-related
challenges
facing
industrial
utilization.
