Frontiers in Chemistry,
Journal Year:
2022,
Volume and Issue:
10
Published: May 9, 2022
Greenhouse
gases
released
by
agriculture
account
for
19%
of
global
greenhouse
gas
emission.
Moreover,
the
abuse
pesticides
and
fertilizers
is
a
fundamental
cause
soil
water
pollution.
Finding
sustainable
countermeasures
these
problems
requires
completely
new
approaches
integration
knowledge.
Precision
(PA)
technology
that
reduces
environmental
pollution
with
minimal
input
(e.g.,
fertilizer,
herbicides,
pesticides)
maximize
production
high-quality
crops
monitoring
conditions
environment
farmland
crops.
However,
lack
data—a
key
realizing
PA—remains
major
obstacle
to
large-scale
adoption
PA.
Herein,
we
discuss
important
research
issues,
such
as
data
managements
analysis
accurate
decision-making,
specific
acquisition
strategies.
systematically
review
electrochemical
sensors,
including
sensors
monitor
plant,
soil,
directly
affect
plant
growth.
ACS Nano,
Journal Year:
2023,
Volume and Issue:
17(6), P. 5211 - 5295
Published: March 9, 2023
Humans
rely
increasingly
on
sensors
to
address
grand
challenges
and
improve
quality
of
life
in
the
era
digitalization
big
data.
For
ubiquitous
sensing,
flexible
are
developed
overcome
limitations
conventional
rigid
counterparts.
Despite
rapid
advancement
bench-side
research
over
last
decade,
market
adoption
remains
limited.
To
ease
expedite
their
deployment,
here,
we
identify
bottlenecks
hindering
maturation
propose
promising
solutions.
We
first
analyze
achieving
satisfactory
sensing
performance
for
real-world
applications
then
summarize
issues
compatible
sensor-biology
interfaces,
followed
by
brief
discussions
powering
connecting
sensor
networks.
Issues
en
route
commercialization
sustainable
growth
sector
also
analyzed,
highlighting
environmental
concerns
emphasizing
nontechnical
such
as
business,
regulatory,
ethical
considerations.
Additionally,
look
at
future
intelligent
sensors.
In
proposing
a
comprehensive
roadmap,
hope
steer
efforts
towards
common
goals
guide
coordinated
development
strategies
from
disparate
communities.
Through
collaborative
efforts,
scientific
breakthroughs
can
be
made
sooner
capitalized
betterment
humanity.
Advanced Functional Materials,
Journal Year:
2021,
Volume and Issue:
31(52)
Published: Oct. 7, 2021
Abstract
Emerging
plant
diseases,
caused
by
pathogens,
pests,
and
climate
change,
are
critical
threats
to
not
only
the
natural
ecosystem
but
also
human
life.
To
mitigate
crop
loss
due
various
biotic
abiotic
stresses,
new
sensor
technologies
monitor
health,
predict,
track
diseases
in
real
time
desired.
Wearable
electronics
have
recently
been
developed
for
health
monitoring.
However,
application
of
wearable
agriculture
science
is
its
infancy.
mean
that
sensors
will
be
directly
placed
on
surfaces
organs
such
as
leaves
stems.
The
designed
detect
status
profiling
trait
biomarkers
microenvironmental
parameters,
transducing
bio‐signals
electric
readout
data
analytics.
In
this
perspective,
recent
progress
summarized
they
categorized
functionality,
namely
growth
sensors,
physiology,
microclimate
chemical
multifunctional
sensors.
design
mechanism
each
type
discussed
their
applications
address
current
challenges
precision
highlighted.
Finally,
perspectives
future
development
presented.
Chemical Reviews,
Journal Year:
2024,
Volume and Issue:
124(2), P. 455 - 553
Published: Jan. 4, 2024
In
the
era
of
Internet-of-things,
many
things
can
stay
connected;
however,
biological
systems,
including
those
necessary
for
human
health,
remain
unable
to
connected
global
Internet
due
lack
soft
conformal
biosensors.
The
fundamental
challenge
lies
in
fact
that
electronics
and
biology
are
distinct
incompatible,
as
they
based
on
different
materials
via
functioning
principles.
particular,
body
is
curvilinear,
yet
typically
rigid
planar.
Recent
advances
design
have
generated
tremendous
opportunities
wearable
bioelectronics,
which
may
bridge
gap,
enabling
ultimate
dream
healthcare
anyone,
anytime,
anywhere.
We
begin
with
a
review
historical
development
healthcare,
indicating
significant
trend
healthcare.
This
followed
by
focal
point
discussion
about
new
design,
particularly
low-dimensional
nanomaterials.
summarize
material
types
their
attributes
designing
bioelectronic
sensors;
we
also
cover
synthesis
fabrication
methods,
top-down,
bottom-up,
combined
approaches.
Next,
discuss
energy
challenges
progress
made
date.
addition
front-end
devices,
describe
back-end
machine
learning
algorithms,
artificial
intelligence,
telecommunication,
software.
Afterward,
integration
systems
been
applied
various
testbeds
real-world
settings,
laboratories
preclinical
clinical
environments.
Finally,
narrate
remaining
conjunction
our
perspectives.
Journal of Agriculture and Food Research,
Journal Year:
2023,
Volume and Issue:
14, P. 100776 - 100776
Published: Sept. 7, 2023
Agriculture
is
an
essential
sector
needed
for
survival
of
the
human
community.
Several
measures
have
been
taken
to
enhance
crop
production.
However
harsh
environmental
conditions
and
frequent
pest
infestation
lead
agricultural
loss.
In
such
scenario,
integration
advanced
technologies
as
sensors
coupled
with
internet
things
could
escalate
production
minimize
economic
Studies
conducted
across
world
that
satisfactorily
demonstrated
implication
integrated
IoT-smart
in
monitoring
factors
moisture,
humidity,
temperature
soil
composition
are
critical
growth.
Green
house
gases
carbon
dioxide,
methane
etc
also
measured
through
automated
sensors.
Smart
farming
enables
measurement
nitrogen
contents
helps
farmers
determine
amount
fertilizers
be
used
farm
lands.
Some
IoT
enabled
equipments
UAVs
useful
accurate
surveillance
attack
associated
diseases
vegetation.
Though
smart
has
great
scopes
future,
it
faces
certain
limitations
related
implementation
cost,
data
security,
lack
sufficient
digital
knowledge
farmers.
Special
policies,
encryption
literacy
ease
future.
Small,
Journal Year:
2022,
Volume and Issue:
18(42)
Published: Sept. 1, 2022
Recent
advances
in
nanolithography,
miniaturization,
and
material
science,
along
with
developments
wearable
electronics,
are
pushing
the
frontiers
of
sensor
technology
into
large-scale
fabrication
highly
sensitive,
flexible,
stretchable,
multimodal
detection
systems.
Various
strategies,
including
surface
engineering,
have
been
developed
to
control
electrical
mechanical
characteristics
sensors.
In
particular,
wrinkling
provides
an
effective
alternative
for
improving
both
sensing
performance
deformability
flexible
stretchable
sensors
by
releasing
interfacial
stress,
preventing
failure,
enlarging
areas.
this
study,
recent
strategies
structures
applications
discussed.
The
fundamental
mechanics,
geometry
various
fabricating
methods
patterns
summarized.
Furthermore,
current
state
approaches
their
impacts
on
development
types
sensors,
strain,
pressure,
temperature,
chemical,
photodetectors,
reviewed.
Finally,
existing
approaches,
designs,
extrapolated
future
applications.
Advanced Engineering Materials,
Journal Year:
2022,
Volume and Issue:
25(3)
Published: Nov. 11, 2022
Gas
detection
and
monitoring
are
essential
due
to
their
direct
impact
on
human
health,
environment,
ecosystem.
Chemiresistive
sensors
one
of
the
most
used
classes
for
measurement
gases
thanks
ease
fabrication,
customizability,
mechanical
flexibility,
fast
response
time.
While
chemiresistive
can
offer
good
sensitivity
selectivity
a
particular
gas
in
controlled
environment
with
known
interferences,
they
may
not
be
able
differentiate
between
various
having
similar
physiochemical
properties
under
uncontrolled
conditions.
To
address
this
shortcoming
sensors,
sensor
arrays
have
been
subject
recent
studies.
group
individual
that
arranged
simultaneously
detect
multiple
cross‐reactive
gases.
In
regard,
array
technologies
developed
given
set
using
multivariate
algorithms.
This
review
provides
an
insight
into
different
algorithms
extract
data
from
arrays,
highlighting
fabrication
techniques
developing
prototypes,
applications
which
these
used.
Science Advances,
Journal Year:
2022,
Volume and Issue:
8(32)
Published: Aug. 10, 2022
Electronic
devices
with
engineered
three-dimensional
(3D)
architectures
are
indispensable
for
frictional-force
sensing,
wide-field
optical
imaging,
and
flow
velocity
measurement.
Recent
advances
in
mechanically
guided
assembly
established
deterministic
routes
to
3D
structures
high-performance
materials,
through
controlled
rolling/folding/buckling
deformations.
The
resulting
are,
however,
mostly
formed
on
planar
substrates
cannot
be
transferred
directly
onto
another
curved
substrate.
Here,
we
introduce
an
ordered
strategy
allow
transformation
of
2D
thin
films
into
sophisticated
diverse
surfaces.
leverages
predefined
mechanical
loadings
that
deform
elastomer
flat/cylindrical
configurations,
followed
by
additional
uniaxial/biaxial
prestretch
drive
buckling-guided
assembly.
Release
results
can
accurately
captured
mechanics
modeling,
as
illustrated
dozens
complex
assembled
substrates.
Demonstrated
applications
include
tunable
dipole
antennas,
sensors
inside
a
tube,
integrated
electronic
systems
capable
conformal
integration
the
heart.
Science Advances,
Journal Year:
2023,
Volume and Issue:
9(15)
Published: April 12, 2023
Wearable
plant
sensors
hold
tremendous
potential
for
smart
agriculture.
We
report
a
lower
leaf
surface-attached
multimodal
wearable
sensor
continuous
monitoring
of
physiology
by
tracking
both
biochemical
and
biophysical
signals
the
its
microenvironment.
Sensors
detecting
volatile
organic
compounds
(VOCs),
temperature,
humidity
are
integrated
into
single
platform.
The
abaxial
attachment
position
is
selected
on
basis
stomata
density
to
improve
signal
strength.
This
versatile
platform
enables
various
stress
applications,
ranging
from
water
loss
early
detection
pathogens.
A
machine
learning
model
was
also
developed
analyze
multichannel
data
quantitative
tomato
spotted
wilt
virus
as
4
days
after
inoculation.
evaluates
different
combinations
disease
predicts
that
minimally
three
required
including
VOC
sensors.
