Microchimica Acta,
Journal Year:
2024,
Volume and Issue:
191(2)
Published: Jan. 11, 2024
Abstract
The
initial
part
of
the
review
provides
an
extensive
overview
about
MXenes
as
novel
and
exciting
2D
nanomaterials
describing
their
basic
physico-chemical
features,
methods
synthesis,
possible
interfacial
modifications
techniques,
which
could
be
applied
to
characterization
MXenes.
Unique
parameters
make
them
attractive
for
many
practical
applications,
are
shortly
discussed.
Use
healthcare
applications
is
a
hot
scientific
discipline
discussed
in
detail.
article
focuses
on
determination
low
molecular
weight
analytes
(metabolites),
high
(DNA/RNA
proteins),
or
even
cells,
exosomes,
viruses
detected
using
electrochemical
sensors
biosensors.
Separate
chapters
provided
show
potential
MXene-based
devices
cancer
biomarkers
wearable
biosensors
monitoring
wide
range
human
activities.
Graphical
Journal of Advanced Research,
Journal Year:
2022,
Volume and Issue:
38, P. 55 - 75
Published: Jan. 22, 2022
In
recent
years,
nanotechnology
has
been
playing
an
important
role
in
designing
smart
fabrics.
Nanomaterials
have
employed
to
introduce
a
sustainable
manner,
antimicrobial,
ultraviolet
resistant,
electrically
conductive,
optical,
hydrophobic
and
flame-retardant
properties
into
textiles
garments.
Nanomaterial
based
devices
are
now
also
being
integrated
with
the
so
as
perform
various
functions
such
energy
harvesting
storage,
sensing,
drug
release
optics.
These
advancements
found
wide
applications
fashion
industry
developed
for
wider
use
defence,
healthcare
on-body
harnessing
applications.
The
objective
of
this
work
is
provide
insight
current
trends
using
modern
textile
industries
inspire
anticipate
further
research
field.
This
review
provides
overview
most
advances
concerning
electronics
wonders
which
could
be
realized
by
nanomaterials
terms
total
reliance
on
our
clothes.
underlines
methods
techniques
functionalization
their
integration
emphasis
cost-effectiveness,
comfort,
wearability,
conversion
efficiency
eco-sustainability.
developing
nanogenerators,
supercapacitors
photoelectronic
fabric
highlighted,
special
wearability
textile.
potential
nanotoxicity
associated
processed
due
tendency
these
leach
environment
along
possible
remediation
measures
discussed.
Finally,
future
outlook
regarding
progress
nano-devices
fabrics
provided.
npj Flexible Electronics,
Journal Year:
2023,
Volume and Issue:
7(1)
Published: June 2, 2023
Abstract
Wearable
sensors
have
made
significant
progress
in
sensing
physiological
and
biochemical
markers
for
telehealth.
By
monitoring
vital
signs
like
body
temperature,
arterial
oxygen
saturation,
breath
rate,
wearable
provide
enormous
potential
the
early
detection
of
diseases.
In
recent
years,
advancements
been
achieved
development
based
on
two-dimensional
(2D)
materials
with
flexibility,
excellent
mechanical
stability,
high
sensitivity,
accuracy
introducing
a
new
approach
to
remote
real-time
health
monitoring.
this
review,
we
outline
2D
materials-based
biosensors
system.
The
review
focused
five
types
sensors,
which
were
classified
according
their
mechanism,
such
as
pressure,
strain,
electrochemical,
optoelectronic,
temperature
sensors.
material
capabilities
impact
performance
operation
sensor
are
outlined.
fundamental
principles
mechanism
well
applications
explored.
This
concludes
by
discussing
remaining
obstacles
future
opportunities
emerging
telehealth
field.
We
hope
that
report
will
be
useful
individuals
who
want
design
it
generate
ideas.
Molecules,
Journal Year:
2022,
Volume and Issue:
27(15), P. 4909 - 4909
Published: Aug. 1, 2022
Due
to
their
unique
layered
microstructure,
the
presence
of
various
functional
groups
at
surface,
earth
abundance,
and
attractive
electrical,
optical,
thermal
properties,
MXenes
are
considered
promising
candidates
for
solution
energy-
environmental-related
problems.
It
is
seen
that
energy
conversion
storage
capacity
can
be
enhanced
by
changing
material
dimensions,
chemical
composition,
structure,
surface
chemistry.
Hence,
it
also
essential
understand
how
one
easily
improve
structure–property
relationship
from
an
applied
point
view.
In
current
review,
we
reviewed
fabrication,
potential
applications
MXenes.
addition,
properties
such
as
structural,
thermal,
chemical,
mechanical
have
been
discussed.
Furthermore,
in
areas
photocatalysis,
electrocatalysis,
nitrogen
fixation,
gas
sensing,
cancer
therapy,
supercapacitors
outlooked.
Based
on
reported
works,
could
observed
further
applying
modification
functionalization
approaches.
This
review
emphasizes
recent
developments
future
perspectives
MXenes-based
composite
materials,
which
will
greatly
help
scientists
working
fields
academia
science.
Journal of Materials Chemistry B,
Journal Year:
2023,
Volume and Issue:
11(10), P. 2036 - 2062
Published: Jan. 1, 2023
Hydrogels,
soft
3D
materials
of
cross-linked
hydrophilic
polymer
chains
with
a
high
water
content,
have
found
numerous
applications
in
biomedicine
because
their
similarity
to
native
tissue,
biocompatibility
and
tuneable
properties.
In
general,
hydrogels
are
poor
conductors
electric
current,
due
the
insulating
nature
commonly-used
chains.
A
number
biomedical
require
or
benefit
from
an
increased
electrical
conductivity.
These
include
used
as
scaffolds
for
tissue
engineering
electroactive
cells,
strain-sensitive
sensors
platforms
controlled
drug
delivery.
The
incorporation
conductive
nanomaterials
results
nanocomposite
which
combine
conductivity
nature,
flexibility
content
hydrogels.
Here,
we
review
state
art
such
materials,
describing
theories
current
conduction
hydrogels,
outlining
limitations
highlighting
methods
improving
