Advanced Functional Materials,
Journal Year:
2024,
Volume and Issue:
34(23)
Published: Jan. 7, 2024
Abstract
The
incidence
of
large
bone
and
articular
cartilage
defects
caused
by
traumatic
injury
is
increasing
worldwide;
the
tissue
regeneration
process
for
these
injuries
lengthy
due
to
limited
self‐healing
ability.
Endogenous
bioelectrical
phenomenon
has
been
well
recognized
play
an
important
role
in
homeostasis
regeneration.
Studies
have
reported
that
electrical
stimulation
(ES)
can
effectively
regulate
various
biological
processes
holds
promise
as
external
intervention
enhance
synthesis
extracellular
matrix,
thereby
accelerating
Hence,
electroactive
biomaterials
considered
a
biomimetic
approach
ensure
functional
recovery
integrating
physiological
signals,
including
electrical,
biochemical,
mechanical
signals.
This
review
will
discuss
endogenous
bioelectricity
tissue,
effects
ES
on
cellular
behaviors.
Then,
recent
advances
materials
their
applications
are
systematically
overviewed,
with
focus
advantages
disadvantages
repair
performances
modulation
cell
fate.
Finally,
significance
mimicking
electrophysiological
microenvironment
target
emphasized
future
development
challenges
strategies
proposed.
Chemical Society Reviews,
Journal Year:
2024,
Volume and Issue:
53(5), P. 2643 - 2692
Published: Jan. 1, 2024
This
review
discusses
the
structures
and
engineering
strategies
of
nanocatalysts,
highlighting
their
underlying
mechanisms
applications
in
cancer
immunotherapy.
Advanced Materials,
Journal Year:
2024,
Volume and Issue:
36(35)
Published: June 22, 2024
Bioelectricity
provides
electrostimulation
to
regulate
cell/tissue
behaviors
and
functions.
In
the
human
body,
bioelectricity
can
be
generated
in
electromechanically
responsive
tissues
organs,
as
well
biomolecular
building
blocks
that
exhibit
piezoelectricity,
with
a
phenomenon
known
piezoelectric
effect.
Inspired
by
natural
bio-piezoelectric
phenomenon,
efforts
have
been
devoted
exploiting
high-performance
synthetic
biomaterials,
including
molecular
materials,
polymeric
ceramic
composite
materials.
Notably,
biomaterials
polarize
under
mechanical
strain
generate
electrical
potentials,
which
used
fabricate
electronic
devices.
Herein,
review
article
is
proposed
summarize
design
research
progress
of
devices
toward
bionanotechnology.
First,
functions
regulating
electrophysiological
activity
from
cellular
tissue
level
are
introduced.
Next,
recent
advances
structure-property
relationship
various
provided
detail.
following
part,
applications
engineering,
drug
delivery,
biosensing,
energy
harvesting,
catalysis
systematically
classified
discussed.
Finally,
challenges
future
prospects
presented.
It
believed
this
will
provide
inspiration
for
development
innovative
fields
biomedicine
nanotechnology.
Sensors,
Journal Year:
2024,
Volume and Issue:
24(16), P. 5143 - 5143
Published: Aug. 8, 2024
This
comprehensive
review
delves
into
the
forefront
of
biosensor
technologies
and
their
critical
roles
in
disease
biomarker
detection
therapeutic
drug
monitoring.
It
provides
an
in-depth
analysis
various
types
applications,
including
enzymatic
sensors,
immunosensors,
DNA
elucidating
mechanisms
specific
healthcare
applications.
The
highlights
recent
innovations
such
as
integrating
nanotechnology,
developing
wearable
devices,
trends
miniaturisation,
showcasing
transformative
potential
healthcare.
In
addition,
it
addresses
significant
sensitivity,
specificity,
reproducibility,
data
security
challenges,
proposing
strategic
solutions
to
overcome
these
obstacles.
is
envisaged
that
will
inform
decision-making,
drive
technological
innovation,
enhance
global
outcomes
by
synthesising
multidisciplinary
insights.
Advanced Functional Materials,
Journal Year:
2024,
Volume and Issue:
34(23)
Published: Jan. 7, 2024
Abstract
The
incidence
of
large
bone
and
articular
cartilage
defects
caused
by
traumatic
injury
is
increasing
worldwide;
the
tissue
regeneration
process
for
these
injuries
lengthy
due
to
limited
self‐healing
ability.
Endogenous
bioelectrical
phenomenon
has
been
well
recognized
play
an
important
role
in
homeostasis
regeneration.
Studies
have
reported
that
electrical
stimulation
(ES)
can
effectively
regulate
various
biological
processes
holds
promise
as
external
intervention
enhance
synthesis
extracellular
matrix,
thereby
accelerating
Hence,
electroactive
biomaterials
considered
a
biomimetic
approach
ensure
functional
recovery
integrating
physiological
signals,
including
electrical,
biochemical,
mechanical
signals.
This
review
will
discuss
endogenous
bioelectricity
tissue,
effects
ES
on
cellular
behaviors.
Then,
recent
advances
materials
their
applications
are
systematically
overviewed,
with
focus
advantages
disadvantages
repair
performances
modulation
cell
fate.
Finally,
significance
mimicking
electrophysiological
microenvironment
target
emphasized
future
development
challenges
strategies
proposed.
