A
highly
soluble,
non-toxic,
and
biocompatible
polymer
polyvinylpyrrolidone
(PVPy)
was
explored
as
a
gate
dielectric
to
demonstrate
low-voltage
operated
p-channel
organic
transistors.
Devices
with
TIPS-Pentacene:
Polystyrene
channel
layer
exhibited
good
electrical
characteristics
at
−5
V
operation.
Moreover,
excellent
repeatability,
bias-stress
stability,
ambient
stability
up
3
months
were
demonstrated
for
these
The
circuit
capability
also
investigated
through
implementation
of
resistive
load
inverter
circuits.
Organic
transistors
such
eco-friendly
solution-processed
materials
will
be
suitable
future
sustainable
electronic
systems
applications.
Nanomaterials,
Journal Year:
2024,
Volume and Issue:
14(18), P. 1536 - 1536
Published: Sept. 22, 2024
The
slowdown
of
Moore’s
Law
necessitates
an
exploration
novel
computing
methodologies,
new
materials,
and
advantages
in
chip
design.
Thus,
carbon-based
materials
have
promise
for
more
energy-efficient
systems
the
future.
Moreover,
sustainability
emerges
as
a
concern
semiconductor
industry.
production
recycling
processes
associated
with
current
chips
present
huge
environmental
challenges.
Electronic
waste
is
major
problem,
sustainable
solutions
must
be
found.
In
this
review,
we
examine
alternative
design
based
on
nanocellulose,
which
also
features
properties
transistors.
Our
review
highlights
that
nanocellulose
(NC)
versatile
material
high-potential
composite,
it
can
fabricated
to
gain
suitable
electronic
semiconducting
properties.
NC
provides
ideal
support
ink-printed
transistors
electronics,
including
green
paper
electronics.
Here,
summarise
various
processing
procedures
describe
structure
exclusively
nanocellulose-based
Furthermore,
survey
recent
scientific
efforts
organic
show
how
fully
automated
such
full
could
achieved,
Process
Design
Kit
(PDK),
expected
variation
models,
standard
cell
library
at
logic-gate
level,
where
multiple
are
connected
perform
basic
logic
operations—for
instance,
NOT-AND
(NAND)
gate.
Taking
all
these
attractive
into
account,
envision
using
Automation
(EDA)
tool
chains.
ACS Applied Electronic Materials,
Journal Year:
2024,
Volume and Issue:
6(12), P. 9142 - 9153
Published: Nov. 22, 2024
Electronics
based
on
natural
or
degradable
materials
are
a
key
requirement
for
next-generation
devices,
where
sustainability,
biodegradability,
and
resource
efficiency
essential.
In
this
context,
optimizing
the
molecular
chemical
structure
of
organic
semiconductor
compounds
(OSCs)
used
as
active
layers
is
crucial
enhancing
these
making
them
competitive
with
conventional
electronics.
work,
honey-gated
field-effect
transistors
(HGOFETs)
were
fabricated
using
four
different
perylene
derivative
films
OSCs,
impact
derivatives
performance
HGOFETs
was
investigated.
naturally
occurring
low-impact
in
an
effort
to
produce
sustainable
systems
that
degrade
into
benign
end
products
at
their
life.
It
shown
second
chain
carbons
imide
position
present
perylenes
A
highly
soluble,
non-toxic,
and
biocompatible
polymer
polyvinylpyrrolidone
(PVPy)
was
explored
as
a
gate
dielectric
to
demonstrate
low-voltage
operated
p-channel
organic
transistors.
Devices
with
TIPS-Pentacene:
Polystyrene
channel
layer
exhibited
good
electrical
characteristics
at
−5
V
operation.
Moreover,
excellent
repeatability,
bias-stress
stability,
ambient
stability
up
3
months
were
demonstrated
for
these
The
circuit
capability
also
investigated
through
implementation
of
resistive
load
inverter
circuits.
Organic
transistors
such
eco-friendly
solution-processed
materials
will
be
suitable
future
sustainable
electronic
systems
applications.
