Frontiers in Plant Science,
Journal Year:
2024,
Volume and Issue:
15
Published: May 29, 2024
Crops
were
the
main
source
of
human
food,
which
have
met
increasingly
diversified
demand
consumers.
Sensors
used
to
monitor
crop
phenotypes
and
environmental
information
in
real
time,
will
provide
a
theoretical
reference
for
optimizing
growth
environment,
resisting
biotic
abiotic
stresses,
improve
yield.
Compared
with
non-contact
monitoring
methods
such
as
optical
imaging
remote
sensing,
wearable
sensing
technology
had
higher
time
spatial
resolution.
However,
existing
sensors
mainly
rigid
mechanical
structures,
easy
cause
damage
organs,
there
still
challenges
terms
accuracy
biosafety.
Emerging
flexible
attracted
wide
attention
field
phenotype
due
their
excellent
properties
biocompatibility.
The
article
introduced
key
technologies
involved
preparation
from
aspects
materials
advanced
processes.
function
was
highlighted,
including
nutrient,
physiological,
ecological
environment
information.
principle,
performance
together
pros
cons
each
sensor
analyzed.
Furthermore,
future
opportunities
devices
discussed
detail
new
theory,
materials,
wireless
power
supply
agricultural
network,
smart
management
system
based
on
sensors,
realize
efficient
production
resources.
Plants,
Journal Year:
2023,
Volume and Issue:
12(17), P. 3077 - 3077
Published: Aug. 28, 2023
Undoubtedly,
the
advent
of
antibiotics
in
19th
century
had
a
substantial
impact,
increasing
human
life
expectancy.
However,
multitude
scientific
investigations
now
indicate
that
we
are
currently
experiencing
phase
known
as
post-antibiotic
era.
There
is
genuine
concern
might
regress
to
time
before
and
confront
widespread
outbreaks
severe
epidemic
diseases,
particularly
those
caused
by
bacterial
infections.
These
have
demonstrated
epidemics
thrive
under
environmental
stressors
such
climate
change,
depletion
natural
resources,
detrimental
activities
wars,
conflicts,
antibiotic
overuse,
pollution.
Moreover,
bacteria
possess
remarkable
ability
adapt
mutate.
Unfortunately,
current
development
insufficient,
future
appears
grim
unless
abandon
our
approach
generating
synthetic
rapidly
lose
their
effectiveness
against
multidrug-resistant
bacteria.
Despite
vital
role
modern
medicine,
medicinal
plants
served
primary
source
curative
drugs
since
ancient
times.
Numerous
reports
published
over
past
three
decades
suggest
could
serve
promising
alternative
ineffective
combating
infectious
diseases.
Over
few
years,
phenolic
compounds,
alkaloids,
saponins,
terpenoids
exhibited
noteworthy
antibacterial
potential,
primarily
through
membrane-disruption
mechanisms,
protein
binding,
interference
with
intermediary
metabolism,
anti-quorum
sensing,
anti-biofilm
activity.
optimize
utilization
effective
drugs,
further
advancements
omics
technologies
network
pharmacology
will
be
required
order
identify
optimal
combinations
among
these
compounds
or
conjunction
antibiotics.
Advanced Science,
Journal Year:
2021,
Volume and Issue:
9(2)
Published: Nov. 10, 2021
Abstract
Plants
have
complex
internal
signaling
pathways
to
quickly
adjust
environmental
changes
and
harvest
energy
from
the
environment.
Facing
growing
population,
there
is
an
urgent
need
for
plant
transformation
precise
monitoring
of
growth
improve
crop
yields.
Nanotechnology,
interdisciplinary
research
field,
has
recently
been
boosting
yields
meeting
global
needs.
In
this
context,
a
new
“plant
nanoscience,”
which
describes
interaction
between
plants
nanotechnology,
emerges
as
times
require.
Nanosensors,
nanofertilizers,
nanopesticides,
nano‐plant
genetic
engineering
are
great
help
in
increasing
Nanogenerators
helping
develop
potential
field
harvesting.
Furthermore,
uptake
internalization
nanomaterials
possible
effects
also
worthy
attention.
review,
forward‐looking
perspective
on
nanoscience
presented
feasible
solutions
future
food
shortages
crises
provided.
Journal of Science Advanced Materials and Devices,
Journal Year:
2024,
Volume and Issue:
9(2), P. 100694 - 100694
Published: March 2, 2024
Nanomaterial
technology
is
a
comprehensive
subject
with
strong
intersections,
and
its
related
research
content
involves
wide
range
of
modern
scientific
technological
fields.
The
science
in
the
area
nanomaterials
has
attracted
attention
many
groups
over
past
few
years.
By
very
nature,
this
topic
lot
room
for
research,
to
tiny
objects
nanometer
range.
Nanomaterials
refer
sudden
changes
properties
substances
when
they
reach
scale,
resulting
special
properties.
In
paper,
we
introduce
various
commonly
used
field
biosensing,
briefly
explain
advantages
disadvantages
nanoscale
biosensors.
At
same
time,
also
working
principles
types
biosensors
based
on
nanomaterial
technology,
including
electrochemical
biosensors,
optical
piezoelectric
addition,
sensing
targets
common
such
as
enzymes,
DNA,
microorganisms,
etc.
Finally,
discuss
challenges
prospects
application
analyze
current
trends
future
directions.
Egyptian Journal of Soil Science,
Journal Year:
2023,
Volume and Issue:
64(1), P. 0 - 0
Published: Dec. 11, 2023
Reviewing
Agri-nanotechnology
from
the
perspective
of
nanoparticles
and
crops
will
help
us
better
understand
interactions
between
crops,
such
as
uptake,
mobilization,
accumulation.
In
recent
years,
a
great
deal
has
been
accomplished
in
nanotechnology
biomedical
sciences,
revolutionizing
therapeutic
diagnostic
techniques.
Despite
that,
additional
research
is
introducing
NPs
on
plant
development
agroecosystems
for
smart
nontechnological
approaches
crop
enhancement.
Here,
we
have
swiftly
introduced
used
science
described
methods
application
biological
effects
crops.
Intending
to
invigorate
safety
or
promote
progression
that
affected
production.
This
review
examines
essential
present
applications
agriculture
while
also
exploring
potential
regulatory
manner,
which
could
open
novel
harmless
possibilities
intelligent
delivery
biomolecules
tactics
nutrient
management,
genetic
engineering,
battling
against
abiotic
stresses.
