Small,
Journal Year:
2023,
Volume and Issue:
19(43)
Published: June 28, 2023
Abstract
Artificially
augmented
photosynthesis
in
nano‐bionic
plants
requires
tunable
nano‐antenna
structures
with
physiochemical
and
optoelectronic
properties,
as
well
unique
light
conversion
capabilities.
The
use
of
nanomaterials
to
promote
capture
across
photosystems,
primarily
by
carbon
dots,
has
shown
promising
results
enhancing
through
uptake,
translocation,
biocompatibility.
Carbon
dots
possess
the
ability
perform
both
down
up‐light
conversions,
making
them
effective
promoters
for
harnessing
solar
energy
beyond
visible
wavelengths.This
review
presents
discusses
recent
progress
fabrication,
chemistry,
morphology,
other
properties
such
photoluminescence
efficiency
nano‐antennas
based
on
dots.
performance
artificially
boosted
is
discussed
then
correlated
how
they
are
applied
plant
models.
challenges
related
nanomaterial
delivery
evaluation
practices
modified
consideration
reliability
this
approach,
potential
avenues
improvements
types
alternative
also
critically
evaluated.
It
anticipated
that
will
stimulate
more
high‐quality
research
nano‐bionics
provide
enhance
future
agricultural
applications.
Mechanics Based Design of Structures and Machines,
Journal Year:
2023,
Volume and Issue:
52(7), P. 3974 - 4008
Published: May 25, 2023
There
is
a
diverse
and
well-constructed
application
of
energy
harvesting
systems
due
to
their
innovate
technology
provide
the
necessary
power
for
low-energy
electronics.
In
this
regard,
prime
objective
current
study
analyze
size-dependent
nonlinear
dynamic
performance
piezoelectric
beam-type
harvesters
at
nanoscale
subjected
time-dependent
mechanical
uniform
load.
A
laminated
structure
containing
an
agglomerated
nanocomposite
core
integrated
with
top
bottom
surface
layers
considered
bridge-type
harvesters.
To
take
size
dependency
into
account,
nonlocal
strain
gradient
continuum
elasticity
formulated
based
upon
quasi-3D
beam
theory
incorporating
both
features
effects.
Thereafter,
problem
then
solved
numerically
relevant
simply
supported
clamped
end
conditions
via
employing
meshless
collocation
technique.
Accordingly,
numerical
solving
procedure
established
without
any
background
meshes
as
well
eliminating
integration
singularity
by
using
proper
multiquadric
radial
basis
functions.
Nano Energy,
Journal Year:
2023,
Volume and Issue:
113, P. 108606 - 108606
Published: June 16, 2023
Piezotronic
sensors
and
self-powered
gadgets
are
highly
sought-after
for
flexible,
wearable,
intelligent
electronics
their
applications
in
cutting-edge
healthcare
human-machine
interfaces.
With
the
advantages
of
a
well-known
piezoelectric
effect,
excellent
mechanical
properties,
emerging
nanotechnology
applications,
one-dimensional
(1D)
ZnO
nanostructures
organized
form
regular
array
have
been
regarded
as
one
most
promising
inorganic
active
materials
piezotronics.
This
report
intends
to
review
recent
developments
1D
nanostructure
arrays
multifunctional
piezotronic
sensors.
Prior
discussing
rational
design
fabrication
approaches
devices
precisely
controlled
dimensions,
well-established
synthesis
methods
high-quality
well-controlled
addressed.
The
challenges
associated
with
well-aligned,
site-specific
nanostructures,
development
trends
devices,
an
ordered
device
performances,
exploring
new
sensing
mechanisms,
incorporating
functionalities
by
constructing
heterostructures,
novel
flexible
integration
technology,
deployment
synergistic
strategies
potential
covered.
A
brief
evaluation
end
products,
such
small-scale
miniaturized
unconventional
power
sources
sensors,
high-resolution
image
personalized
medical
is
also
included.
paper
summarized
towards
conclusion
outlining
present
difficulties
future
directions.
study
will
provide
guidance
research
directions
nanostructure-based
piezotronics,
which
hasten
chips
interfaces,
displays,
systems.
