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.
The
skeleton
is
a
highly
innervated
organ
in
which
nerve
fibers
interact
with
various
skeletal
cells.
Peripheral
endings
release
neurogenic
factors
and
sense
signals,
mediate
bone
metabolism
pain.
In
recent
years,
tissue
engineering
has
increasingly
focused
on
the
effects
of
nervous
system
regeneration.
Simultaneous
regeneration
nerves
through
use
materials
or
by
enhancement
endogenous
repair
signals
been
proven
to
promote
functional
Additionally,
emerging
information
mechanisms
interoception
central
regulation
homeostasis
provide
an
opportunity
for
advancing
biomaterials.
However,
comprehensive
reviews
this
topic
are
lacking.
Therefore,
review
provides
overview
relationship
between
regeneration,
focusing
applications.
We
discuss
novel
regulatory
explore
innovative
approaches
based
nerve-bone
interactions
Finally,
challenges
future
prospects
field
briefly
discussed.
Pharmaceutics,
Год журнала:
2023,
Номер
15(4), С. 1204 - 1204
Опубликована: Апрель 10, 2023
The
first
conductive
polymers
(CPs)
were
developed
during
the
1970s
as
a
unique
class
of
organic
substances
with
properties
that
are
electrically
and
optically
comparable
to
those
inorganic
semiconductors
metals
while
also
exhibiting
desirable
traits
conventional
polymers.
CPs
have
become
subject
intensive
research
due
their
exceptional
qualities,
such
high
mechanical
optical
properties,
tunable
electrical
characteristics,
ease
synthesis
fabrication,
higher
environmental
stability
than
traditional
materials.
Although
conducting
several
limitations
in
pure
state,
coupling
other
materials
helps
overcome
these
drawbacks.
Owing
fact
various
types
tissues
responsive
stimuli
fields
has
made
smart
biomaterials
attractive
for
range
medical
biological
applications.
For
applications,
including
delivery
drugs,
biosensors,
biomedical
implants,
tissue
engineering,
composites
attracted
significant
interest
both
industry.
These
bimodalities
can
be
programmed
respond
internal
external
stimuli.
Additionally,
ability
deliver
drugs
concentrations
at
an
extensive
range.
This
review
briefly
discusses
commonly
used
CPs,
composites,
processes.
Further
highlights
importance
drug
along
applicability
systems.
Coatings,
Год журнала:
2024,
Номер
14(3), С. 256 - 256
Опубликована: Фев. 21, 2024
During
surgery
and
after,
pathogens
can
contaminate
indwelling
implanted
medical
devices,
resulting
in
serious
infections.
Microbial
colonization,
infection,
later
biofilm
formation
are
major
complications
associated
with
the
use
of
implants
represent
risk
factors
implant
failure.
Despite
fact
that
aseptic
antimicrobial
medications
lower
systemic
antibiotic
result
a
loss
efficacy,
increased
tissue
toxicity,
development
drug-resistant
diseases.
This
work
explores
advancements
coatings
for
head-related
implantable
addressing
critical
issue
infection
prevention.
It
emphasizes
significance
these
reducing
microbial
colonization
highlights
various
techniques
materials
used
creating
effective
surfaces.
Moreover,
this
article
presents
comprehensive
overview
current
strategies
future
directions
coating
research,
aiming
to
improve
patient
outcomes
by
preventing
implant-associated
ACS Biomaterials Science & Engineering,
Год журнала:
2023,
Номер
9(7), С. 4045 - 4085
Опубликована: Июнь 26, 2023
Spinal
cord
injury
(SCI)
causes
severe
motor
or
sensory
damage
that
leads
to
long-term
disabilities
due
disruption
of
electrical
conduction
in
neuronal
pathways.
Despite
current
clinical
therapies
being
used
limit
the
propagation
cell
tissue
damage,
need
for
neuroregenerative
remains.
Conductive
hydrogels
have
been
considered
a
promising
therapy
their
ability
provide
pro-regenerative
microenvironment
and
flexible
structure,
which
conforms
complex
SCI
lesion.
Furthermore,
conductivity
can
be
utilized
noninvasive
signaling
dictating
behavior.
However,
guide
directional
axon
growth
reach
distal
end
complete
nerve
reconnection
remains
critical
challenge.
In
this
Review,
we
highlight
recent
advances
conductive
hydrogels,
including
incorporation
materials,
fabrication
techniques,
cross-linking
interactions.
We
also
discuss
important
characteristics
designing
regenerative
therapy.
propose
insights
into
properties
hydrogel
could
implemented
as
guidance
applications.
Specifically,
practical
implications
findings
field,
potential
conclude
are
further
research
is
needed
optimize
design
application.
