Green Analytical Chemistry,
Journal Year:
2024,
Volume and Issue:
10, P. 100119 - 100119
Published: June 13, 2024
Lab-on-a-chip
devices
have
become
pivotal
in
various
scientific
disciplines
due
to
their
compactness
and
efficiency.
However,
reliance
on
traditional
materials
raises
environmental
concerns.
This
perspective
explores
the
shift
towards
biodegradable
these
devices,
highlighting
benefits,
challenges,
potential
for
a
more
sustainable
approach.
Biodegradable
alternatives
like
natural
polymers
(e.g.
cellulose-based
compounds)
offer
eco-friendly
characteristics
ability
naturally
decompose
without
harming
environment.
Yet,
integrating
presents
challenges
maintaining
device
functionality
cost-effectiveness.
Nonetheless,
this
transition
signifies
crucial
step
practices,
ensuring
that
advancements
research
align
with
conservation.
Nanoscale,
Journal Year:
2024,
Volume and Issue:
16(14), P. 6900 - 6914
Published: Jan. 1, 2024
The
healthcare
landscape
has
experienced
a
profound
and
irreversible
transformation,
primarily
driven
by
the
emergence
of
green
nanomaterial-assisted
point-of-care
(POC)
devices.
Small,
Journal Year:
2024,
Volume and Issue:
unknown
Published: July 19, 2024
Abstract
With
the
rapid
development
of
micro/nano
machining,
there
is
an
elevated
demand
for
high‐performance
microdevices
with
high
reliability
and
low
cost.
Due
to
their
outstanding
electrochemical,
optical,
electrical,
mechanical
performance,
carbon
materials
are
extensively
utilized
in
constructing
energy
storage,
sensing,
optoelectronics.
Carbon
machining
fundamental
carbon‐based
intelligent
microelectronics,
multifunctional
integrated
microsystems,
high‐reliability
portable/wearable
consumer
electronics,
portable
medical
diagnostic
systems.
Despite
numerous
reviews
on
materials,
a
comprehensive
overview
lacking
that
systematically
encapsulates
based
structures,
from
structural
design
manufacturing
strategies
specific
applications.
This
review
focuses
latest
progress
toward
miniaturized
device,
including
engineering,
large‐scale
fabrication,
performance
optimization.
Especially,
targets
in‐depth
evaluation
micro
storage
devices,
microsensors,
microactuators,
photoresponsive
electromagnetic
interference
shielding
devices.
Moreover,
it
highlights
challenges
opportunities
microdevices,
aiming
spark
further
exciting
research
directions
application
prospectives.