Journal of Physics Conference Series,
Journal Year:
2024,
Volume and Issue:
2874(1), P. 012005 - 012005
Published: Oct. 1, 2024
Abstract
In
this
paper,
a
multilayer
decoupling
control
method
for
photovoltaic
heat
pumps
based
on
expected
values
is
proposed,
which
aims
to
achieve
the
optimal
operation
of
pump
system
and
system.
This
predicts
output
energy
realizes
load
demand
order
adapt
change
in
environment,
adaptive
fuzzy
PID
compound
adopted
optimize
strategy.
Experimental
results
show
that
can
effectively
improve
efficiency,
reduce
consumption,
demonstrate
good
adaptability
stability.
ACS Omega,
Journal Year:
2025,
Volume and Issue:
10(6), P. 5214 - 5250
Published: Feb. 4, 2025
In
light
of
the
ongoing
technological
transformation,
embracing
advancements
that
foster
shared
benefits
is
essential.
Nanorobots,
a
breakthrough
within
nanotechnology,
have
demonstrated
significant
potential
in
fields
such
as
medicine,
where
diagnostic
and
therapeutic
applications
are
primary
focus
areas.
This
review
provides
comprehensive
overview
robots,
their
evolving
role
medical
applications,
particularly
highlighting
use
nanorobots.
Various
design
strategies
operational
principles,
including
sensors,
actuators,
nanocontrollers,
discussed
based
on
prior
research.
Key
nanorobot
include
biomedical
imaging,
biosensing,
minimally
invasive
surgery,
targeted
drug
delivery,
each
utilizing
advanced
actuation
technologies
to
enhance
precision.
The
paper
further
examines
recent
progress
micro/nanorobot
addresses
important
considerations
for
future,
biocompatibility,
control,
navigation,
targeting,
safety,
ethical
implications.
offers
holistic
perspective
how
nanorobots
can
reshape
practices,
paving
way
precision
medicine
improved
patient
outcomes.
Materials Horizons,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Jan. 1, 2025
The
growing
plastic
pollution
crisis
demands
novel
approaches,
with
innovative
materials
that
mimic
robotic
behaviors
emerging
as
a
promising
solution.
Chemical Reviews,
Journal Year:
2025,
Volume and Issue:
unknown
Published: May 7, 2025
Biomolecules
present
promising
stimuli-responsive
mechanisms
to
revolutionize
soft
actuators.
Proteins,
peptides,
and
nucleic
acids
foster
specific
intermolecular
interactions,
their
boundless
sequence
design
spaces
encode
precise
actuation
capabilities.
Drawing
inspiration
from
nature,
biomolecular
actuators
harness
existing
properties
meet
the
needs
of
diverse
applications.
This
review
features
that
respond
a
wide
variety
stimuli
drive
both
user-directed
autonomous
actuation.
We
discuss
how
advances
in
biomaterial
fabrication
accelerate
prototyping
precise,
custom
actuators,
we
identify
biomolecules
with
untapped
potential.
Finally,
highlight
opportunities
for
multifunctional
reconfigurable
improve
versatility
sustainability
next-generation
Small Science,
Journal Year:
2024,
Volume and Issue:
4(8)
Published: June 27, 2024
Eye
fundus
diseases,
such
as
retinal
degenerative
which
lead
to
blindness
in
≈12%
of
individuals
aged
>65
years,
cause
permanent
damage
cells.
The
antioxidant
quercetin
(QC)
is
promising
for
the
effective
treatment
eye
diseases;
however,
its
poor
solubility
and
low
retention
rate
often
limit
clinical
application.
Herein,
an
situ
ophthalmic
tethered
gold
yarnball
(GY)
that
doubles
ocular
agent
QC
reservoir
overcome
drug
developed.
After
intravitreal
injection,
QC@GYs
enhance
cell
leakage
internal
limiting
membrane
permeability,
facilitating
partial
penetration
into
intraretinal
tissue.
combination
retina‐tethered
QC@GY
first‐level
sustained
release
reduces
macular
degeneration
vivo
by
effectively
regulating
oxidative
stress.
Furthermore,
preserves
viability
pigment
epithelium
cells,
apoptosis,
suppresses
drusen
formation.
This
preservation
morphology
function
maximizes
therapeutic
impact
while
minimizing
need
frequent
intraocular
administration.
Overall,
GY
platform
a
versatile
tool
delivery
diseases.
Small,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Dec. 18, 2024
Triple-negative
breast
cancer
(TNBC),
characterized
by
its
aggressive
metastatic
propensity
and
lack
of
effective
targeted
therapeutic
options,
poses
a
major
challenge
in
oncological
management.
A
proof-of-concept
neoadjuvant
strategy
aimed
at
inhibiting
TNBC
tumor
growth
mitigating
metastasis
through
localized
delivery
chemotherapeutics
is
reported
this
paper.
This
approach
addresses
the
limitations
payload
capacity
stimuli
responsiveness
commonly
associated
with
microrobotics
oncology.
hydrogel-based
system
developed
for
immobilization
chemotherapeutic
agents,
subsequently
encapsulated
within
magnetically
responsive
microrobots.
design
leverages
external
magnetic
fields
to
facilitate
precise
navigation
localization
agents
directly
site.
The
efficacy
demonstrated
an
animal
model,
which
significant
14-fold
reduction
size
suppression
critical
organs
such
as
liver
lungs
are
observed.
Crucially,
drug
release
mechanism
engineered
be
microenvironment
regulated
overexpression
enzymatic
activity
matrix
metalloproteinases
(MMP2
MMP9)
tumors,
triggering
degradation
hydrogel
matrix,
leading
controlled
immobilized
drug.
ensures
that
action
localized,
reducing
systemic
toxicity
enhancing
treatment
efficacy.
These
findings
suggest
holds
promise
broader
applications
other
types.
Micromachines,
Journal Year:
2024,
Volume and Issue:
15(12), P. 1491 - 1491
Published: Dec. 13, 2024
Recent
advancements
in
Electrowetting
on
Dielectric
(EWOD)
systems,
such
as
simplified
fabrication,
low-voltage
actuation,
and
the
development
of
more
reliable
materials,
are
expanding
potential
applications
electrowetting
actuators.
One
application
EWOD
actuators
is
RF
devices
to
enable
dynamic
reconfiguration
allow
real-time
adjustments
frequency
bandwidth.
In
this
paper,
a
method
introduced
actuate
panel
using
forces.
system,
velocity
plate
increases
by
maximizing
actuation
force,
minimizing
moving
mass
(droplets
metalized
plate),
reducing
resistance
(contact
line
drag,
fluid
drag).
However,
some
these
competing
factors.
For
instance,
force
can
be
increased
increasing
number
droplets,
but
also
inertia
drag
force.
An
analytical
model
presented
understand
system
performance
tradeoffs.
The
validated
with
an
experiment,
data
demonstrate
less
than
7.8%
error
between
measured
predicted
maximum
velocities
for
different
voltage
inputs.
addition,
study
presents
3D
numerical
FEM
analyze
profile
viscous
thin
focusing
variations
along
droplet’s
height,
which
cannot
captured
experimentally.
main
advantage
proposed
over
previous
works
simple
2D
manufacturing
process,
allows
embedding
plates
circuit
boards,
addition
being
compact,
portable,
low-cost.
does
not
have
any
mechanical
components,
increase
system’s
reliability
harsh
environment.
Micromachines,
Journal Year:
2024,
Volume and Issue:
15(4), P. 510 - 510
Published: April 10, 2024
In
vitro
fertilization
(IVF)
has
transformed
the
sector
of
assisted
reproductive
technology
(ART)
by
presenting
hope
to
couples
facing
infertility
challenges.
However,
conventional
IVF
strategies
include
their
own
set
problems
such
as
success
rates,
invasive
procedures,
and
ethical
issues.
The
integration
micro/nanorobotics
into
provides
a
prospect
address
these
challenging
This
article
an
outline
use
in
specializing
advancing
sperm
manipulation,
egg
retrieval,
embryo
culture,
capacity
future
improvements
this
swiftly
evolving
discipline.
additionally
explores
challenges
obstacles
associated
with
IVF,
addition
concerns
regulatory
elements
related
usage
advanced
technologies
ART.
A
comprehensive
discussion
risk
safety
considerations
using
techniques
is
likewise
presented.
Through
exploration,
we
delve
core
principles,
benefits,
challenges,
potential
impact
revolutionizing
procedures
enhancing
affected
person
outcomes.
