Journal of Materials Chemistry B,
Год журнала:
2025,
Номер
13(10), С. 3295 - 3303
Опубликована: Янв. 1, 2025
Flexible
and
biocompatible
strain
sensors
are
becoming
increasingly
important
in
fields
such
as
health
monitoring,
wearable
electronics,
environmental
sensing
because
they
offer
significant
advantages
over
conventional
rigid
systems.
However,
lack
the
versatility
ecological
physiological
biocompatibility
necessary
for
broader
integration
within
biological
Here,
we
describe
development
of
an
inexpensive
water-based
plasticized
chitosan-carbon
black
composite
ink
that
can
be
used
to
produce
conductive
sensors.
The
applied
various
surfaces,
including
skin,
internal
organs,
other
tissues,
using
numerous
methods,
painting,
dipping,
stamping.
Furthermore,
this
unprecedented
ability
attach
conform
surfaces
allows
exploration
secondary
innovations,
exploiting
skin
wrinkles
improve
sensitivity.
This
study
demonstrates
exhibits
a
reliable
change
electrical
resistance
response
wide
range
motions,
from
subtle
vibrations
during
speech
heartbeats
extensive
articulations,
like
finger
elbow
movements.
exceptional
sensitivity
range,
biocompatibility,
ink's
low
cost,
biodegradability,
ease
removal
enhance
its
applicability
sustainable,
temporary,
customizable
solutions,
highlighting
potential
versatile
applications
human
motion
detection,
sensing.
Ain Shams Engineering Journal,
Год журнала:
2023,
Номер
15(3), С. 102509 - 102509
Опубликована: Сен. 30, 2023
Agriculture
must
overcome
escalating
problems
in
order
to
feed
a
growing
population
while
preserving
the
environment
and
natural
resources.
Recently,
it
has
become
clear
that
sensors
Internet
of
Things
(IoT)
are
effective
tools
for
boosting
agricultural
sustainability
food
security.
This
study
provides
insights
into
global
market
size
smart
agriculture
future
years
from
2021
2030,
In
addition,
this
research
offered
four
levels
IoT
architecture
agriculture:
perception
or
sensing
actuator
layer,
network
cloud
application
layer.
The
state
art
sensor
technologies
is
examined
review
paper,
along
with
some
their
potential
uses,
including
1)
irrigation
monitoring
systems,
2)
fertilizer
administration,
3)
crop
disease
detection,
4)
(yield
monitoring,
quality
processing
logistic
monotoring),
forecasting,
harvesting,
5)
climate
conditions
6)
fire
detection.
Additionally,
offers
number
can
detect
parameters
like
soil
NPK,
moisture,
nitrate,
pH,
electrical
conductivity,
CO2,
temperature,
humidity,
light,
weather
station,
water
level,
livestock,
plant
disease,
smoke,
flame,
flexible
wearable.
Subsequently,
highlights
advantages
agriculture,
superior
efficiency,
expansion,
reduced
resources,
cleaner
method,
agility,
product
improvement.
However,
there
still
issues
need
be
resolved
technology
used
where
covered
also
provide
directions
opportunities.
will
contribute
helping
readers
researchers
better
understand
academic
achievement
subject.
Nano-Micro Letters,
Год журнала:
2024,
Номер
16(1)
Опубликована: Май 31, 2024
Abstract
The
rapid
development
of
the
Internet
Things
and
artificial
intelligence
technologies
has
increased
need
for
wearable,
portable,
self-powered
flexible
sensing
devices.
Triboelectric
nanogenerators
(TENGs)
based
on
gel
materials
(with
excellent
conductivity,
mechanical
tunability,
environmental
adaptability,
biocompatibility)
are
considered
an
advanced
approach
developing
a
new
generation
sensors.
This
review
comprehensively
summarizes
recent
advances
in
gel-based
TENGs
sensors,
covering
their
principles,
properties,
applications.
Based
requirements
working
mechanism
characteristic
advantages
gels
introduced.
Design
strategies
performance
optimization
hydrogel-,
organogel-,
aerogel-based
systematically
summarized.
In
addition,
applications
human
motion
sensing,
tactile
health
monitoring,
human–machine
interaction,
other
related
fields
Finally,
challenges
discussed,
feasible
proposed
to
guide
future
research.
Agronomy,
Год журнала:
2024,
Номер
14(2), С. 341 - 341
Опубликована: Фев. 7, 2024
Nanotechnology,
nanosensors
in
particular,
has
increasingly
drawn
researchers’
attention
recent
years
since
it
been
shown
to
be
a
powerful
tool
for
several
fields
like
mining,
robotics,
medicine
and
agriculture
amongst
others.
Challenges
ahead,
such
as
food
availability,
climate
change
sustainability,
have
promoted
pushed
forward
the
use
of
agroindustry
environmental
applications.
However,
issues
with
noise
confounding
signals
make
these
tools
non-trivial
technical
challenge.
Great
advances
artificial
intelligence,
more
particularly
machine
learning,
provided
new
that
allowed
researchers
improve
quality
functionality
nanosensor
systems.
This
short
review
presents
latest
work
analysis
data
from
using
learning
agroenvironmental
It
consists
an
introduction
topics
application
field
nanosensors.
The
rest
paper
examples
techniques
utilisation
electrochemical,
luminescent,
SERS
colourimetric
classes.
final
section
discussion
conclusion
concerning
relevance
material
discussed
future
sector.
Scientific Reports,
Год журнала:
2024,
Номер
14(1)
Опубликована: Май 3, 2024
The
application
of
blockchain
technology
holds
significant
potential
for
improving
efficiency,
resilience,
and
transparency
within
the
Fisheries
Supply
Chain
(FSC).
This
study
addresses
critical
barriers
hindering
adoption
(BT)
in
Chinese
FSC,
recognizing
unique
challenges
posed
by
its
intricacies.
Through
a
comprehensive
literature
review,
fourteen
Critical
Barrier
Factors
(CBFs)
were
identified,
grey
Delphi
method
was
employed
to
distill
this
set.
Five
pivotal
CBFs
emerged,
including
"Regulatory
Compliance,"
"Cost
Implementation,"
"Complex
Network".
A
subsequent
Decision-Making
Trial
Evaluation
Laboratory
(DEMATEL)
analysis
revealed
causal
relationships
among
these
factors,
categorizing
them
into
effect
cause
groups.
Network"
identified
as
primary
influencing
factors
demanding
attention
effective
BT
integration
FSC.
findings
serve
valuable
resource
FSC
stakeholders,
assisting
prioritizing
efforts
address
barriers.
discerned
provide
guidance
managers
optimizing
allocation.
Ultimately,
research
advocates
fisheries
supply
chain
enhance
overall
performance
operational
efficiency.
Agriculture,
Год журнала:
2025,
Номер
15(3), С. 234 - 234
Опубликована: Янв. 22, 2025
Agricultural
sustainability
is
becoming
more
and
important
for
human
health.
Wireless
sensing
technology
could
provide
smart
monitoring
in
real
time
different
parameters
planting,
breeding,
the
food
supply
chain
with
advanced
sensors
such
as
flexible
sensors;
wireless
communication
networks
third-,
fourth-,
or
fifth-generation
(3G,
4G,
5G)
mobile
networks;
artificial
intelligence
(AI)
models.
Many
sustainable,
natural,
renewable,
recycled
facility
energies
light,
wind,
water,
heat,
acoustic,
radio
frequency
(RF),
microbe
that
exist
actual
agricultural
systems
be
harvested
by
self-powered
technologies
devices
using
solar
cells,
electromagnetic
generators
(EMGs),
thermoelectric
(TEGs),
piezoelectric
(PZGs),
triboelectric
nanogenerators
(TENGs),
microbial
full
cells
(MFCs).
Sustainable
energy
harvesting
to
maximum
extent
possible
lead
creation
of
sustainable
devices,
reduce
carbon
emissions,
result
implementation
precision
monitoring,
management,
decision
making
production.
Therefore,
this
article
suggests
proposing
developing
a
system
agriculture
(SAS)
would
an
effective
way
improve
production
efficiency
while
achieving
green
and,
finally,
ensuring
quality
safety
