Current Research in Biotechnology,
Journal Year:
2023,
Volume and Issue:
5, P. 100129 - 100129
Published: Jan. 1, 2023
The
natural
barrier
that
separates
us
from
our
surroundings
is
skin.
It
enables
to
experience
a
range
of
forms
sensations,
temperature
variations,
and
different
levels
touch
pressure.
Because
human
skin
so
instinctive,
it's
simple
overlook
the
intricacy
body's
primary
sensory
organ.
Our
contains
variety
diverse,
highly
specialized
sense
receptors
enable
it
perceive
functions
efficiently
securely
with
great
precision.
These
receptors,
by
making
use
an
integrated
flexible
system,
convert
physical
contact
information
into
electrical
impulses
before
sending
nervous
system
for
further
involved
interpretation.
Electronic
skin,
i.e.,
E-skin
also
referred
as
e-skin
or
synthetic
very
thin
material
made
fusing
electronic
components
elastic,
pliable
substrates
are
efforts
mimicking
potentials
cutting-edge
technology
largely
used
medicinal
purposes,
such
detecting
perceiving
internal
life
sign
processes
in
living
beings,
well
their
unprecedented
monitoring.
To
explore
aspects
health
wellness,
this
article
explores
recent
advancements
technologies,
properties
materials
fabrication,
its
future
potential.
Advanced Functional Materials,
Journal Year:
2024,
Volume and Issue:
34(40)
Published: May 22, 2024
Abstract
Neuromorphic
computing,
inspired
by
the
functionality
of
biological
neural
networks,
has
emerged
as
a
promising
paradigm
for
artificial
intelligence
applications,
especially
in
field
flexible
electronics.
Among
various
synaptic
devices,
floating‐gate
transistors
exhibit
long‐term
plasticity,
but
they
face
challenge
achieving
compatibility.
In
this
work,
first
demonstration
MXene
transistor
is
reported,
which
uses
multiple
layers
floating
gates
and
nanosheets
charge
state
modulators.
The
device
shows
excellent
mechanical
flexibility
can
operate
at
low
voltages,
improves
its
suitability
wearable
electronic
devices.
It
also
emulate
Pavlovian
conditioned
reflexes
under
external
stress,
suggesting
potential
cognitive
learning.
Moreover,
utilized
handwritten
digit
recognition
simulating
fully
connected
network,
high
accuracy
92.0%.
This
demonstrates
practical
applicability
neuromorphic
computing.
Besides,
research
achieves
patterning
application
transistors.
provides
new
solution
integrated
fabrication
ACS Applied Materials & Interfaces,
Journal Year:
2022,
Volume and Issue:
14(43), P. 48948 - 48959
Published: Oct. 21, 2022
The
advancement
of
self-powered
intelligent
strain
systems
for
human-computer
interaction
is
crucial
toward
wearable
and
energy-saving
applications.
Simultaneously,
lowering
operating
voltage
thus
reducing
power
consumption
are
particular
interests.
A
brain-like
smart
synaptic
hardware
system
considered
as
a
promising
candidate
low-power,
parallel
computing
learning
processes.
However,
the
combination
low-voltage
organic
transistors
energy
efficient
synapse
driven
by
tactile
signal
has
been
hindered
limited
materials
technology.
Here,
employing
an
elastomeric
copolymer
poly(vinylidene
fluoride-co-hexafluoropropylene)
(PVDF-HFP)
with
high
HFP
content
25
mol
%,
flexible,
(|VG|
≤
3
V)
low
9.2
×
10-17
J
devised
simultaneously,
along
lowest
quality
factor
(R
=
Pw
VG,
2.76
10-16
V).
Furthermore,
based
on
characteristics,
flexible
artificial
recognition
Morse
code
established
without
any
supporting.
Mechanical
flexibility,
cycling
stability,
image
contrast
enhancement
functions,
simulated
pattern
accuracy
multilayer
perceptron
neural
network
also
simulated.
This
work
recommends
route
exploiting
voltage,
human-machine
interfaces
loss
transistors.
Current Research in Biotechnology,
Journal Year:
2023,
Volume and Issue:
5, P. 100129 - 100129
Published: Jan. 1, 2023
The
natural
barrier
that
separates
us
from
our
surroundings
is
skin.
It
enables
to
experience
a
range
of
forms
sensations,
temperature
variations,
and
different
levels
touch
pressure.
Because
human
skin
so
instinctive,
it's
simple
overlook
the
intricacy
body's
primary
sensory
organ.
Our
contains
variety
diverse,
highly
specialized
sense
receptors
enable
it
perceive
functions
efficiently
securely
with
great
precision.
These
receptors,
by
making
use
an
integrated
flexible
system,
convert
physical
contact
information
into
electrical
impulses
before
sending
nervous
system
for
further
involved
interpretation.
Electronic
skin,
i.e.,
E-skin
also
referred
as
e-skin
or
synthetic
very
thin
material
made
fusing
electronic
components
elastic,
pliable
substrates
are
efforts
mimicking
potentials
cutting-edge
technology
largely
used
medicinal
purposes,
such
detecting
perceiving
internal
life
sign
processes
in
living
beings,
well
their
unprecedented
monitoring.
To
explore
aspects
health
wellness,
this
article
explores
recent
advancements
technologies,
properties
materials
fabrication,
its
future
potential.
