Advanced Electronic Materials,
Год журнала:
2024,
Номер
unknown
Опубликована: Авг. 21, 2024
Abstract
Printed
electronics
are
electronic
devices
fabricated
on
flexible
substrates
using
a
wide
range
of
printing
techniques,
which
have
the
characteristics
lightness,
thinness,
softness,
bendability,
and
transparency.
Inkjet
is
suitable
technique
for
fabrication
high‐precision
low‐cost
because
they
customizable,
integrable,
reconfigurable.
However,
maintaining
stability
during
ink
preparation,
printing,
evaporation
process
to
ensure
high
accuracy
quality
has
posed
tremendous
challenges
until
today.
In
this
paper,
principles
methods
from
three
aspects:
reviewed.
First,
comprehensive
colloidal
dispersion
mechanisms
involved
in
summarized
reviewed
recent
advancements
made
preparation
2D
material
inks.
Second,
fluid
dynamics
inkjet
achieving
stable
straight
lines
analyzed,
originally
proposed
“phase
diagram”
predicting
morphology
printed
lines,
first
theoretically
predict
necessary
conditions
obtaining
yet
lines.
Finally,
supposed
suppress/eliminate/utilize
“coffee
ring
effect”,
especially
several
self‐assembly
methods.
Chemistry - A European Journal,
Год журнала:
2024,
Номер
30(24)
Опубликована: Фев. 1, 2024
Abstract
MXenes
have
unique
properties
such
as
high
electrical
conductivity,
excellent
mechanical
properties,
rich
surface
chemistry,
and
convenient
processability.
These
characteristics
make
them
ideal
for
producing
flexible
materials
with
tunable
microstructures.
This
paper
reviews
the
laboratory
research
progress
of
MXene
its
composite
supercapacitors.
And
introduces
general
synthesis
method
MXene,
well
preparation
MXene.
By
analyzing
current
status,
electrochemical
reaction
mechanism
was
explained
from
perspectives
electrolyte
terminating
groups.
review
particularly
emphasizes
methods
freestanding
materials.
The
points
out
that
biggest
problem
electrodes
is
severe
self‐stacking,
which
reduces
number
chemically
active
sites,
weakens
ion
accessibility,
ultimately
lowers
performance.
Therefore,
it
necessary
to
other
electrode
design
a
good
microstructure.
affirms
enormous
potential
in
field
In
addition,
challenges
possible
improvements
faced
by
based
practical
applications
were
also
discussed.
Microsystems & Nanoengineering,
Год журнала:
2025,
Номер
11(1)
Опубликована: Фев. 27, 2025
Abstract
In
recent
years,
the
utilization
of
3D
printing
technology
in
micro
and
nano
device
manufacturing
has
garnered
significant
attention.
Advancements
have
enabled
achieving
sub-micron
level
precision.
Unlike
conventional
micro-machining
techniques,
offers
versatility
material
selection,
such
as
polymers.
been
gradually
applied
to
general
field
microelectronic
devices
sensors,
actuators
flexible
electronics
due
its
adaptability
efficacy
microgeometric
design
processes.
Furthermore,
also
instrumental
fabrication
microfluidic
devices,
both
through
direct
indirect
This
paper
provides
an
overview
evolving
landscape
technology,
delineating
essential
materials
processes
involved
fabricating
times.
Additionally,
it
synthesizes
diverse
applications
these
technologies
across
different
domains.
Abstract
MXene‐based
nanocomposite
materials
with
other
2D
have
made
a
large
impact
in
the
field
of
energy
storage,
particularly
area
supercapacitors.
Combining
conductive
MXene
materials,
such
as
transition
metal
oxide,
dichalcogenides,
and
layered
double
hydroxide,
improves
electrochemical
storage
properties
resulting
nanocomposites.
The
interface
allows
an
improved
performance
for
applications.
In
this
review,
state‐of‐the‐art
research
progress
2D/2D
synthesis,
structural
morphological
properties,
supercapacitors
is
explored.
nanocomposites
terms
specific
capacitance,
energy,
power
densities,
stability
are
discussed.
This
study
shows
that
rapidly
developing
has
important
on
next‐generation
supercapacitor.
Chemistry - A European Journal,
Год журнала:
2024,
Номер
30(21)
Опубликована: Янв. 11, 2024
Abstract
Micro‐supercapacitors,
emerging
as
promising
micro‐energy
storage
devices,
have
attracted
significant
attention
due
to
their
unique
features.
This
comprehensive
review
focuses
on
two
key
aspects:
the
scalable
fabrication
of
MSCs
and
diverse
applications.
The
begins
by
elucidating
energy
mechanisms
guiding
principles
for
designing
high‐performance
devices.
It
subsequently
explores
recent
advancements
in
techniques
electrode
materials
micro‐nano
technologies
micro‐devices.
discussion
encompasses
critical
application
domains,
including
multifunctional
MSCs,
integration,
integrated
power
generation,
Despite
notable
progress,
there
are
still
some
challenges
such
large‐scale
production
material,
well‐controlled
technology,
manufacture.
summary
concludes
emphasizing
need
future
research
enhance
micro‐supercapacitor
performance,
reduce
costs,
achieve
production,
explore
synergies
with
other
technologies.
collective
effort
aims
propel
from
laboratory
innovation
market
viability,
providing
robust
solutions
MEMS
portable
electronics.
