Journal of Materiomics,
Journal Year:
2023,
Volume and Issue:
9(6), P. 1242 - 1262
Published: Sept. 25, 2023
The
escalating
demand
for
micro/nano-sized
devices,
such
as
micro/nano-robots,
intelligent
portable/wearable
microsystems,
and
implantable
medical
microdevices,
necessitates
the
expeditious
development
of
integrated
microsystems
incorporating
energy
conversion,
storage,
consumption.
Critical
bottlenecks
in
microscale
storage/sensors
their
systems
are
being
addressed
by
exploring
new
technologies
materials,
e.g.,
MXene,
holding
great
potential
developing
lightweight
deformable
microdevices.
This
review
summarizes
latest
progress
milestones
realization
MXene-based
micro-supercapacitors
(MSCs)
sensor
arrays,
thus
discusses
design
fundamentals
key
advancements
conversion-storage-consumption
microsystems.
Finally,
we
outline
challenges
fabricating
MSCs/sensors
self-powered
which
is
crucial
practical
applications.
Particularly,
illuminate
viable
solutions
to
unsolved
issues
highlight
exciting
opportunities.
Chemical Reviews,
Journal Year:
2024,
Volume and Issue:
124(22), P. 12738 - 12843
Published: Nov. 5, 2024
The
quest
to
imbue
machines
with
intelligence
akin
that
of
humans,
through
the
development
adaptable
neuromorphic
devices
and
creation
artificial
neural
systems,
has
long
stood
as
a
pivotal
goal
in
both
scientific
inquiry
industrial
advancement.
Recent
advancements
flexible
electronics
primarily
rely
on
nanomaterials
polymers
owing
their
inherent
uniformity,
superior
mechanical
electrical
capabilities,
versatile
functionalities.
However,
this
field
is
still
its
nascent
stage,
necessitating
continuous
efforts
materials
innovation
device/system
design.
Therefore,
it
imperative
conduct
an
extensive
comprehensive
analysis
summarize
current
progress.
This
review
highlights
applications
neuromorphics,
involving
inorganic
(zero-/one-/two-dimensional,
heterostructure),
carbon-based
such
carbon
nanotubes
(CNTs)
graphene,
polymers.
Additionally,
comparison
summary
structural
compositions,
design
strategies,
key
performance,
significant
these
are
provided.
Furthermore,
challenges
future
directions
pertaining
materials/devices/systems
associated
neuromorphics
also
addressed.
aim
shed
light
rapidly
growing
attract
experts
from
diverse
disciplines
(e.g.,
electronics,
science,
neurobiology),
foster
further
for
accelerated
development.
Biosensors,
Journal Year:
2022,
Volume and Issue:
12(12), P. 1096 - 1096
Published: Nov. 30, 2022
Heavy
metal
ions
(HMIs)
pose
a
serious
threat
to
the
environment
and
human
body
because
they
are
toxic
non-biodegradable
widely
exist
in
environmental
ecosystems.
It
is
necessary
develop
rapid,
sensitive
convenient
method
for
HMIs
detection
provide
strong
guarantee
ecology
health.
Ion-imprinted
electrochemical
sensors
(IIECSs)
based
on
nanomaterials
have
been
regarded
as
an
excellent
technology
of
good
selectivity,
advantages
fast
speed,
low
cost,
portability.
Electrode
surfaces
modified
with
can
obtain
nano-effects,
such
size
effect,
macroscopic
quantum
tunneling
effect
surface
which
greatly
improve
its
area
conductivity,
so
sensitivity
reduce
limit
sensor.
Hence,
present
review
focused
fundamentals
synthetic
strategies
ion-imprinted
polymers
(IIPs)
IIECSs
detection,
well
applications
various
modifiers
sensitizers
construction
HMIIECSs
influence
sensing
performance
fabricated
sensors.
Finally,
potential
challenges
outlook
future
development
were
also
highlighted.
By
means
points
presented
this
review,
we
hope
some
help
further
developing
preparation
methods
high-performance
expanding
their
applications.
Journal of Materiomics,
Journal Year:
2023,
Volume and Issue:
9(6), P. 1242 - 1262
Published: Sept. 25, 2023
The
escalating
demand
for
micro/nano-sized
devices,
such
as
micro/nano-robots,
intelligent
portable/wearable
microsystems,
and
implantable
medical
microdevices,
necessitates
the
expeditious
development
of
integrated
microsystems
incorporating
energy
conversion,
storage,
consumption.
Critical
bottlenecks
in
microscale
storage/sensors
their
systems
are
being
addressed
by
exploring
new
technologies
materials,
e.g.,
MXene,
holding
great
potential
developing
lightweight
deformable
microdevices.
This
review
summarizes
latest
progress
milestones
realization
MXene-based
micro-supercapacitors
(MSCs)
sensor
arrays,
thus
discusses
design
fundamentals
key
advancements
conversion-storage-consumption
microsystems.
Finally,
we
outline
challenges
fabricating
MSCs/sensors
self-powered
which
is
crucial
practical
applications.
Particularly,
illuminate
viable
solutions
to
unsolved
issues
highlight
exciting
opportunities.
