Communications Materials,
Journal Year:
2024,
Volume and Issue:
5(1)
Published: Oct. 5, 2024
Abstract
Wearable
sensors
provide
a
good
solution
for
real-time
monitoring
of
human
health,
and
great
progress
has
been
made
in
miniaturization,
flexibility,
low
power
consumption
intelligence
recent
years.
Here,
we
introduce
the
principles
wearable
their
applications
disease
surveillance.
Physiological
signals
mainly
include
physical
biochemical
signals.
Among
various
used
to
monitor
physiological
signals,
have
introduced
basic
working
mechanical
electrochemical
sensors.
We
summarize
examples
clever
integration
with
daily
products,
cases
applied
respiratory
system,
cardiovascular
nervous
musculoskeletal
system
metabolic
system.
In
view
current
situation
terms
materials,
structure,
technology
energy,
discuss
challenges
solutions
sensors,
look
forward
application
prospects
Bulletin of the Chemical Society of Japan,
Journal Year:
2023,
Volume and Issue:
97(1)
Published: Dec. 1, 2023
Abstract
Nanotechnology
has
revealed
the
science
of
nanoscale.
The
global
challenge
that
will
follow
is
to
build
functional
materials
with
knowledge
nanoscale
phenomena.
This
task
carried
out
by
nanoarchitectonics
as
a
postnanotechnology
concept.
goal
material
systems
architecting
atoms,
molecules,
and
nanomaterials
building
blocks.
Fundamentally,
all
are
made
atoms
molecules.
Therefore,
nanoarchitectonics,
which
architects
from
can
be
universal
way
create
materials.
It
may
said
method
for
everything
in
science.
From
basic
units,
living
cells,
complex
systems,
components
nanoarchitectonics.
paper
presents
recent
examples
research
at
various
size
levels,
atomic
cellular
level,
specifically,
(i)
atomistic
(ii)
molecular
(iii)
supramolecular
(iv)
inorganic
(v)
biomolecular
(vi)
cell-mimic
(vii)
cell-based
possibility
science,
an
integrative
then
explored.
Journal of Materials Chemistry B,
Journal Year:
2023,
Volume and Issue:
12(5), P. 1168 - 1193
Published: Dec. 21, 2023
A
biosensor
is
a
device
that
reacts
with
the
analyte
to
be
analyzed,
detects
its
concentration,
and
generates
readable
information,
which
plays
an
important
role
in
medical
diagnosis,
detection
of
physiological
indicators,
disease
prevention.
Nanomaterials
have
received
increasing
attention
fabrication
improvement
biosensors
due
their
unique
physicochemical
optical
properties.
In
this
paper,
properties
nanomaterials
such
as
size
effect,
electrical
properties,
advantages
field
biosensing
are
briefly
summarized,
application
can
effectively
improve
sensitivity
reduce
limit
biosensors.
The
commonly
used
gold
nanoparticles
(AuNPs),
carbon
nanotubes
(CNTs),
quantum
dots
(QDs),
graphene,
magnetic
nanobeads
for
applications
also
reviewed.
Besides,
two
main
types
using
involved
construction
working
principles
described,
toxicity
biocompatibility
future
direction
nanomaterial
discussed.
Biosensors,
Journal Year:
2023,
Volume and Issue:
13(11), P. 976 - 976
Published: Nov. 7, 2023
The
promising
field
of
organic
electronics
has
ushered
in
a
new
era
biosensing
technology,
thus
offering
frontier
for
applications
both
medical
diagnostics
and
environmental
monitoring.
This
review
paper
provides
comprehensive
overview
electronics’
remarkable
progress
potential
applications.
It
explores
the
multifaceted
aspects
materials
devices,
thereby
highlighting
their
unique
advantages,
such
as
flexibility,
biocompatibility,
low-cost
fabrication.
delves
into
diverse
range
biosensors
enabled
by
electronics,
including
electrochemical,
optical,
piezoelectric,
thermal
sensors,
showcasing
versatility
detecting
biomolecules,
pathogens,
pollutants.
Furthermore,
integrating
wearable
devices
Internet
Things
(IoT)
ecosystem
is
discussed,
wherein
they
offer
real-time,
remote,
personalized
monitoring
solutions.
also
addresses
current
challenges
future
prospects
biosensing,
emphasizing
breakthroughs
medicine,
sustainability,
advancement
human
health
well-being.
Chemical Communications,
Journal Year:
2024,
Volume and Issue:
60(16), P. 2152 - 2167
Published: Jan. 1, 2024
In
nanoarchitectonics
approaches,
rational
physical
and
chemical
communications
will
lead
to
the
development
of
more
advanced
functional
materials.
Layer-by-layer
assembly
can
be
a
powerful
tool
for
this
purpose,
as
exemplified
in
feature
paper.
ACS Nano,
Journal Year:
2024,
Volume and Issue:
18(36), P. 24705 - 24740
Published: Aug. 26, 2024
The
gradual
rise
of
personal
healthcare
awareness
is
accelerating
the
deployment
wearable
sensors,
whose
ability
acquiring
physiological
vital
signs
depends
on
sensing
materials.
MXenes
have
distinct
chemical
and
physical
superiorities
over
other
2D
nanomaterials
for
sensors.
This
review
presents
a
comprehensive
summary
latest
advancements
in
MXenes-based
materials
It
begins
with
an
introduction
to
special
structural
features
performance,
followed
by
in-depth
exploration
versatile
functionalities.
A
detailed
description
different
mechanisms
also
included
illustrate
contribution
performance
its
improvement.
In
addition,
real-world
applications
sensors
monitoring
are
as
well.
remaining
challenges
their
promising
opportunities
finally
narrated,
conjunction
prospective
future
development.
Materials,
Journal Year:
2025,
Volume and Issue:
18(3), P. 654 - 654
Published: Feb. 1, 2025
The
development
of
functional
materials
and
the
use
nanotechnology
are
ongoing
projects.
These
fields
closely
linked,
but
there
is
a
need
to
combine
them
more
actively.
Nanoarchitectonics,
concept
that
comes
after
nanotechnology,
ready
do
this.
Among
related
research
efforts,
into
creating
through
formation
thin
layers
on
surfaces,
molecular
membranes,
multilayer
structures
these
have
lot
implications.
Layered
especially
important
as
key
part
nanoarchitectonics.
diversity
components
used
in
layer-by-layer
(LbL)
assemblies
notable
feature.
Examples
LbL
introduced
this
review
article
include
quantum
dots,
nanoparticles,
nanocrystals,
nanowires,
nanotubes,
g-C3N4,
graphene
oxide,
MXene,
nanosheets,
zeolites,
nanoporous
materials,
sol–gel
layered
double
hydroxides,
metal–organic
frameworks,
covalent
organic
conducting
polymers,
dyes,
DNAs,
polysaccharides,
nanocelluloses,
peptides,
proteins,
lipid
bilayers,
photosystems,
viruses,
living
cells,
tissues.
examples
assembly
show
how
useful
versatile
it
is.
Finally,
will
consider
future
challenges
ACS Applied Materials & Interfaces,
Journal Year:
2024,
Volume and Issue:
16(7), P. 9551 - 9560
Published: Feb. 8, 2024
Stretchable
sensors
have
been
widely
investigated
and
developed
for
the
purpose
of
human
motion
detection,
touch
sensors,
healthcare
monitoring,
typically
converting
mechanical/structural
deformation
into
electrical
signals.
The
viscoelastic
strain
stretchable
materials
often
results
in
nonlinear
stress–strain
characteristics
over
a
broad
range
strains,
consequently
making
at
body
joints
less
accurate
predicting
recognizing
gestures.
Accurate
recognition
gestures
can
be
further
deteriorated
by
environmental
changes
such
as
temperature
humidity.
Here,
we
demonstrated
an
environment-adaptable
high
linearity
(up
to
ε
=
150%)
high-durability
(>100,000
cycles)
sensor
conformally
laminated
onto
gesture
recognition.
serpentine
configuration
our
ionic
liquid-based
film
enabled
us
construct
data
sets
mechanical
machine
learning-based
Signal
training
distinct
strains
stimuli
using
algorithm
analysis
successfully
measured
predicted
joint
temperature-changing
environment
with
accuracy
92.86%
(R-squared).
Therefore,
believe
that
serpentine-shaped
ion
gel-based
harmonized
machine-learning
will
significant
achievement
toward
environmentally
adaptive
multianalyte
sensing
applications.
Our
proposed
learning-enabled
multisensor
system
may
enable
development
future
electronic
devices
wearable
electronics,
soft
robotics,
skin,
human-machine
interaction
systems.
