Chemical Society Reviews,
Journal Year:
2024,
Volume and Issue:
53(17), P. 8632 - 8712
Published: Jan. 1, 2024
Bioelectronics
is
a
hot
research
topic,
yet
an
important
tool,
as
it
facilitates
the
creation
of
advanced
medical
devices
that
interact
with
biological
systems
to
effectively
diagnose,
monitor
and
treat
broad
spectrum
health
conditions.
Electrical
stimulation
(ES)
pivotal
technique
in
bioelectronics,
offering
precise,
non-pharmacological
means
modulate
control
processes
across
molecular,
cellular,
tissue,
organ
levels.
This
method
holds
potential
restore
or
enhance
physiological
functions
compromised
by
diseases
injuries
integrating
sophisticated
electrical
signals,
device
interfaces,
designs
tailored
specific
mechanisms.
review
explains
mechanisms
which
ES
influences
cellular
behaviors,
introduces
essential
principles,
discusses
performance
requirements
for
optimal
systems,
highlights
representative
applications.
From
this
review,
we
can
realize
based
bioelectronics
therapy,
regenerative
medicine
rehabilitation
engineering
technologies,
ranging
from
tissue
neurological
modulation
cardiovascular
cognitive
functions.
underscores
versatility
various
biomedical
contexts
emphasizes
need
adapt
complex
clinical
landscapes
addresses.
Chemical Society Reviews,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Jan. 1, 2025
Since
their
discovery
over
a
decade
ago,
MXenes
have
transformed
the
field
of
"materials
for
healthcare",
stimulating
growing
interest
in
healthcare-related
applications.
These
developments
also
driven
significant
advancements
MXenes'
synthesis.
This
review
systematically
examines
synthesis
and
applications
sensing
biomedical
fields,
underscoring
pivotal
role
addressing
critical
challenges
modern
healthcare.
We
describe
experimental
by
combining
appropriate
laboratory
modules
with
mechanistic
principles
underlying
each
step.
In
addition,
we
provide
extensive
details
on
parameters,
considerations,
essential
instructions
successful
Various
healthcare
including
sensing,
imaging,
synergistic
therapies,
regenerative
medicine,
wearable
devices
been
explored.
further
highlight
emerging
trends
MXenes,
viz.,
as
nanovehicles
drug
delivery,
vectors
gene
therapy,
tools
immune
profiling.
By
identifying
important
parameters
that
define
utility
applications,
this
outlines
strategies
to
regulate
profile,
thereby
serving
valuable
guide
design
application-specific
properties.
The
final
section
integrates
research
theoretical
studies
comprehensive
understanding
field.
It
technologies,
such
artificial
intelligence
(AI)
machine
learning
(ML),
accelerating
material
discovery,
structure-property
optimization,
automation.
Complemented
detailed
supplementary
information
synthesis,
stability,
biocompatibility,
environmental
impact,
insights,
offers
profound
knowledge
base
diverse
family
2D
materials.
Finally,
compared
potential
other
materials
underscore
existing
prioritize
interdisciplinary
collaboration.
synthesizing
key
from
its
current
(especially
2018
onward),
provides
cohesive
assessment
MXene
foundations
prospects
sector.
Small Methods,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Jan. 28, 2025
Abstract
With
the
advent
of
5G
era,
there
has
been
a
marked
increase
in
research
interest
concerning
electromagnetic
wave‐absorbing
materials.
A
critical
challenge
remains
improving
properties
these
materials
while
satisfying
diverse
application
demands.
MXenes,
identified
as
prominent
“emerging”
2D
for
wave
absorption,
offer
unique
advantages
that
are
expected
to
drive
advancements
and
innovations
this
field.
This
review
emphasizes
synthesis
benefits
provided
by
structural
characteristics
MXenes
performance
enhancements
achieved
through
their
combination
with
other
absorbing
Material
requirements,
approaches,
conceptual
frameworks
integrated
underscore
advantages.
The
study
provides
thorough
analysis
MXene‐absorbing
composites,
going
beyond
basic
classification
address
preparation
modification
processes
affecting
absorption
composites.
Attention
is
directed
techniques,
design
principles,
influence
on
composite
performance.
Additionally,
potential
applications
devices
summarized.
concludes
addressing
challenges
currently
confronting
MXene
outlining
developmental
trends,
aiming
guidance
subsequent
domain.
Small Science,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Feb. 17, 2025
MXenes,
a
novel
class
of
two‐dimensional
(2D)
transition
metal
carbides,
carbonitrides,
and
nitrides,
have
gained
significant
attention
in
biomedicine.
They
are
synthesized
via
two
main
approaches:
top‐down
etching
MAX
(here,
M
represents
an
early
metal,
A
element
belonging
to
the
A‐group,
X
N
or
C)
phase
precursors
bottom‐up
chemical
reduction
oxides.
While
method
requires
high
temperatures,
influencing
morphology
posing
safety
concerns,
alternative
non‐MAX
synthesis
routes
emerging.
Due
their
unique
physical
properties,
MXene‐based
composites
hold
great
promise
regenerative
medicine,
biosensing,
cancer
therapy.
However,
challenges
related
stability,
controlled
drug
release,
biodegradability
remain.
This
review
explores
advancements
MXene
synthesis,
emphasizing
fabrication
biomedical
applications.
Notably,
shown
remarkable
potential
treatment,
particularly
photothermal
photodynamic
Their
mechanisms,
advantages,
limitations
discussed,
along
with
future
prospects
clinical
translation.
The
development
offers
new
avenues
for
innovative
therapies,
paving
way
improved
treatment
strategies.
