Nano-Micro Letters,
Journal Year:
2024,
Volume and Issue:
16(1)
Published: Feb. 27, 2024
Abstract
The
development
of
precise
and
sensitive
electrophysiological
recording
platforms
holds
the
utmost
importance
for
research
in
fields
cardiology
neuroscience.
In
recent
years,
active
micro/nano-bioelectronic
devices
have
undergone
significant
advancements,
thereby
facilitating
study
electrophysiology.
distinctive
configuration
exceptional
functionality
these
micro-nano-collaborative
bioelectronic
offer
potential
high-fidelity
action
signals
on
a
large
scale.
this
paper,
we
review
three-dimensional
nano-transistors
planar
micro-transistors
terms
their
applications
electro-excitable
cells,
focusing
evaluation
effects
signals.
Looking
forward
to
possibilities,
challenges,
wide
prospects
micro-nano-devices,
expect
advance
progress
satisfy
demands
theoretical
investigations
medical
implementations
within
domains
neuroscience
research.
Advanced Materials,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Sept. 10, 2024
Abstract
Hydrogel‐based
flexible
artificial
tactility
is
equipped
to
intelligent
robots
mimic
human
mechanosensory
perception.
However,
it
remains
a
great
challenge
for
hydrogel
sensors
maintain
flexibility
and
sensory
performances
during
cyclic
loadings
at
high
or
low
temperatures
due
water
loss
freezing.
Here,
robot
developed
with
robustness
based
on
organohydrogel
sensor
arrays
negligent
hysteresis
temperature
tolerance.
Conductive
polyaniline
chains
are
interpenetrated
through
poly(acrylamide‐
co
‐acrylic
acid)
network
glycerin/water
mixture
interchain
electrostatic
interactions
hydrogen
bonds,
yielding
dissipated
energy
of
1.58
MJ
m
−3
,
ultralow
1000
loadings.
Moreover,
the
binary
solvent
provides
gels
outstanding
tolerance
from
−100
60
°C
remain
flexible,
fatigue
resistant,
conductive
(0.27
S
−1
),
highly
strain
sensitive
(GF
3.88)
pressure
(35.8
MPa
).
The
manipulator
finger
dorsa
pads
simultaneously
monitor
motions
detect
distribution
exerted
by
grasped
objects.
A
machine
learning
model
used
train
system
recognize
shape
objects
100%
accuracy.
organohydrogels
promising
novel
robots.
ACS Applied Nano Materials,
Journal Year:
2024,
Volume and Issue:
7(12), P. 13893 - 13918
Published: June 5, 2024
Two-dimensional
(2D)
materials
have
seen
a
dramatic
increase
in
use
recent
years
due
to
their
exceptional
characteristics,
which
make
them
perfect
for
wide
range
of
sensing
applications.
However,
achieving
optimal
performance
2D
material-based
sensors
often
poses
challenges
owing
material
limitations
and
environmental
factors.
The
combination
ML
algorithms
with
offers
way
maximize
selectivity,
sensitivity,
overall
sensor
dependability.
study
starts
by
looking
at
the
basic
characteristics
many
uses
sensing,
such
as
graphene
transition
metal
dichalcogenides
(TMDs).
It
then
explores
difficulties
encountered
conventional
techniques
shows
how
machine
learning
(ML)
overcome
these
difficulties.
A
thorough
examination
various
methods
used
is
provided,
along
an
explanation
functions
data
processing,
pattern
identification,
real-time
adaptive
sensing.
paper
also
discusses
might
lead
better
measures
including
lower
false
positive
rates
higher
accuracy.
Comprehensive
analysis
done
on
case
studies
that
demonstrate
effective
implementations
domains,
industrial
applications,
monitoring,
healthcare.
In
conclusion,
abstract
prospects
future,
highlighting
learning-assisted
are
developing
they
transform
technologies
variety
fields.
Applied Sciences,
Journal Year:
2023,
Volume and Issue:
13(8), P. 4688 - 4688
Published: April 7, 2023
With
its
excellent
electrical
and
mechanical
properties
the
rapid
development
of
device
fabrication
technologies,
laser-induced
graphene
(LIG)
has
played
an
important
role
in
field
wearable
technologies
since
discovery
2014.
In
recent
years,
with
relentless
devices,
newly
developed
LIG-based
devices
also
possess
multifunction
intelligence
characteristics.
This
review
is
aimed
toward
two
most
fields
related
to
LIG,
namely,
health
care
human–computer
interaction
(HCI).
We
introduce
multifunctional
intelligent
systems
for
HCI
over
sorting
out
their
design
ideas,
preparation
process,
performance,
application.
Furthermore,
we
discuss
future
direction
HCI.
Nano-Micro Letters,
Journal Year:
2024,
Volume and Issue:
16(1)
Published: Feb. 27, 2024
Abstract
The
development
of
precise
and
sensitive
electrophysiological
recording
platforms
holds
the
utmost
importance
for
research
in
fields
cardiology
neuroscience.
In
recent
years,
active
micro/nano-bioelectronic
devices
have
undergone
significant
advancements,
thereby
facilitating
study
electrophysiology.
distinctive
configuration
exceptional
functionality
these
micro-nano-collaborative
bioelectronic
offer
potential
high-fidelity
action
signals
on
a
large
scale.
this
paper,
we
review
three-dimensional
nano-transistors
planar
micro-transistors
terms
their
applications
electro-excitable
cells,
focusing
evaluation
effects
signals.
Looking
forward
to
possibilities,
challenges,
wide
prospects
micro-nano-devices,
expect
advance
progress
satisfy
demands
theoretical
investigations
medical
implementations
within
domains
neuroscience
research.
