Frontiers in Plant Science,
Journal Year:
2025,
Volume and Issue:
15
Published: Jan. 7, 2025
As
the
source
of
data
acquisition,
sensors
provide
basic
support
for
crop
planting
decision
management
and
play
a
foundational
role
in
developing
smart
planting.
Accurate,
stable,
deployable
on-site
make
intelligent
monitoring
various
scenarios
possible.
Recent
breakthroughs
plant
advanced
rapid
development
manufacturing
artificial
intelligence
(AI)
have
driven
towards
miniaturization,
intelligence,
multi-modality.
This
review
outlines
key
technologies
new
sensors,
such
as
micro-nano
technology,
flexible
electronics
micro-electromechanical
system
technology.
The
latest
technological
frontiers
trends
sensor
principles,
fabrication
processes,
performance
parameters
soil
different
segmented
are
systematically
expounded.
Finally,
future
opportunities,
challenges,
prospects
discussed.
We
anticipate
that
introducing
like
nanotechnology
AI
will
rapidly
radically
revolutionize
accuracy
agricultural
leading
to
levels
innovation.
Advanced Intelligent Systems,
Journal Year:
2023,
Volume and Issue:
5(12)
Published: Oct. 10, 2023
To
promote
sustainability,
this
review
explores:
1)
the
utilization
of
affordable
high‐performance
sensors
that
can
enhance
food
safety
and
quality,
plant
growth,
disease
management
2)
Internet
Things
(IoT)‐supported
to
empower
farmers,
stakeholders,
agro‐food
industries
via
rapid
testing
predictive
analysis
based
on
sensing
generated
informatics
using
artificial
intelligence
(AI).
The
performance
such
is
noticeable,
but
technology
still
not
suitable
be
used
in
real
applications
owing
lack
focus,
scalability,
well‐coordinated
research,
regulations.
cover
gap,
carefully
critically
analyzes
state‐of‐the‐art
technologies
developed
for
quality
assurance
(i.e.,
contaminants,
toxins,
packaging
testing)
growth
monitoring
phenotyping,
stresses,
volatile
organic
components,
nutrient
levels,
hormones,
pathogens)
along
with
possible
challenges.
following
has
been
proposed
future
research:
promoting
optimized
combination
green
units
supported
by
IoT
perform
at
location,
considering
remote
urban
areas
as
a
key
analyzing
AI
should
also
focus
risk
assessment
understanding
optimizing
necessary
majors.
Finally,
perspectives
IoT‐enabled
sensors,
their
real‐world
limitations,
are
discussed.
Advanced Functional Materials,
Journal Year:
2024,
Volume and Issue:
34(45)
Published: June 12, 2024
Abstract
Advanced
wireless
sensors,
incorporating
metal‐organic
frameworks
(MOFs),
enzymatic
systems,
and
nanocomposites,
offer
unparalleled
solutions
for
monitoring
analytes
human
physiological
signals.
These
cutting‐edge
when
used
with
external
devices,
enable
real‐time
of
physicochemical
processes
within
the
body,
thereby
enhancing
understanding
complex
biological
systems.
This
study
presents
advancements
in
sensor
development,
fabrication
techniques,
user‐friendly
protocols.
The
performance
these
sensors
is
evaluated
based
on
their
selectivity,
sensitivity,
detection
limits.
Moreover,
this
article
explores
limitations,
challenges,
key
strategies
to
enhance
analyte
recognition
from
onsite
environmental
species,
ensuring
point‐of‐care
safety.
ACS Nano,
Journal Year:
2024,
Volume and Issue:
18(6), P. 4651 - 4682
Published: Feb. 2, 2024
MXenes
have
shown
great
potential
for
micro-supercapacitors
(MSCs)
due
to
the
high
metallic
conductivity,
tunable
interlayer
spacing
and
intercalation
pseudocapacitance.
In
particular,
negative
surface
charge
hydrophilicity
of
make
them
suitable
various
solution
processing
strategies.
Nevertheless,
a
comprehensive
review
MXene
MSCs
has
not
been
conducted.
this
review,
we
present
summary
state-of-the-art
in
terms
ink
rheology,
microelectrode
design
integrated
system.
The
formulation
rheological
behavior
different
strategies,
which
are
essential
quality
printed/coated
films,
presented.
effects
its
compounds,
3D
electrode
structure,
asymmetric
on
electrochemical
properties
discussed
detail.
Equally
important,
summarize
system
intelligent
applications
current
challenges
prospects
development
high-performance
MSCs.
Nano-Micro Letters,
Journal Year:
2025,
Volume and Issue:
17(1)
Published: Jan. 9, 2025
Abstract
Recent
advancements
in
passive
wireless
sensor
technology
have
significantly
extended
the
application
scope
of
sensing,
particularly
challenging
environments
for
monitoring
industry
and
healthcare
applications.
These
systems
are
equipped
with
battery-free
operation,
connectivity,
designed
to
be
both
miniaturized
lightweight.
Such
features
enable
safe,
real-time
industrial
support
high-precision
physiological
measurements
confined
internal
body
spaces
on
wearable
epidermal
devices.
Despite
exploration
into
diverse
environments,
development
a
systematic
comprehensive
research
framework
system
architecture
remains
elusive,
which
hampers
further
optimization
these
systems.
This
review,
therefore,
begins
an
examination
scenarios,
progresses
evaluate
current
architectures,
discusses
function
each
component—specifically,
module,
communication
model,
readout
module—within
context
key
implementations
target
sensing
Furthermore,
we
present
case
studies
that
demonstrate
feasibility
proposed
classified
components
derived
from
this
approach.
By
outlining
trajectory
technologies,
paper
aims
establish
foundation
more
advanced,
user-friendly
Plant Biotechnology Journal,
Journal Year:
2024,
Volume and Issue:
22(6), P. 1516 - 1535
Published: Jan. 6, 2024
Summary
Plant
health
is
intricately
linked
to
crop
quality,
food
security
and
agricultural
productivity.
Obtaining
accurate
plant
information
of
paramount
importance
in
the
realm
precision
agriculture.
Wearable
sensors
offer
an
exceptional
avenue
for
investigating
status
fundamental
science,
as
they
enable
real‐time
continuous
in‐situ
monitoring
physiological
biomarkers.
However,
a
comprehensive
overview
that
integrates
critically
assesses
wearable
across
various
facets,
including
their
elements,
classification,
design,
sensing
mechanism,
fabrication,
characterization
application,
remains
elusive.
In
this
study,
we
provide
meticulous
description
systematic
synthesis
recent
research
progress
sensor
properties,
technology
application
information.
This
work
endeavours
serve
guiding
resource
utilization
sensors,
empowering
advancement
within
agriculture
paradigm.
Applied Sciences,
Journal Year:
2024,
Volume and Issue:
14(3), P. 1216 - 1216
Published: Jan. 31, 2024
Radio
Frequency
Identification
(RFID)
technology,
capable
of
wirelessly
processing
large
amounts
information,
is
gaining
attention
with
the
advancement
IoT
technology.
RFID
systems
can
be
utilized
as
Wireless
Sensor
Network
(WSN)
technology
by
introducing
sensing
materials
responsive
to
external
environmental
stimuli.
To
achieve
effective
information
communication
and
capabilities,
various
types
nanomaterials
are
being
used
components
sensors.
This
paper
provides
an
overview
sensor
system
in
their
composition.
Polymers
that
flexibility
attracting
more
user-friendly
substrates
demand
for
them
increases
wearable
market.
Additionally,
advancements
inkjet
printing
allowing
cost-effective
simple
production
components,
introduce
inks
manufacturing
methods
utilizing
such
metal
nanoparticles,
carbon
materials,
composites.
Furthermore,
enable
detection
environments
high
sensitivity
a
wide
range.
Consequently,
wireless
variety
actively
many
applications.
By
analyzing
current
research
progress
problems
faced
this
suggests
future
directions
its
development
next-generation
system.