Proceedings of the 2021 5th International Conference on Electronic Information Technology and Computer Engineering,
Journal Year:
2023,
Volume and Issue:
unknown, P. 779 - 785
Published: Oct. 20, 2023
Rocket
take-off
signal
plays
an
essential
role
in
launch
missions.
Its
correctness
directly
affects
the
coordination
and
unity
of
various
subsystems.
Aiming
at
shortcomings
current
contact
acquisition
system,
as
well
development
status
photodetector,
a
new
collect
method,
which
uses
plastic
optic
fiber
probe,
was
introduced
to
deal
with
input
console.
The
selection
optical
sensor,
photoelectric
detector
operational
amplifier
are
discussed
detail.
Designed
processing
circuit
by
modules,
verified
feasibility
scheme
reliability
system
simulation.
It
provides
solutions
technical
ideas
for
next-generation
system.
Advanced Quantum Technologies,
Journal Year:
2024,
Volume and Issue:
7(3)
Published: Jan. 18, 2024
Abstract
The
development
of
quantum‐enabled
photonic
technologies
has
opened
new
avenues
for
advanced
illumination
across
diverse
fields,
including
sensing,
computing,
materials,
and
integration.
This
review
highlights
how
Quantum‐enhanced
sensing
imaging
exploit
nonclassical
correlations
to
attain
unprecedented
accuracy
in
chaotic
environments.
As
well
as
guaranteeing
secure
communications,
quantum
cryptography,
protected
by
physical
principles,
ensures
unbreakable
cryptographic
key
exchange.
computing
speed
increases
exponentially,
previously
unimplementable
uses
classical
computers
become
feasible.
On‐chip
integration
enables
the
mass
production
components
pervasive
applications
facilitating
miniaturization
scalability.
A
powerful
flexible
platform
is
produced
when
systems
are
combined.
Quantum
spin
liquids
other
topological
materials
can
maintain
their
states
while
subject
decoherence.
Despite
challenges
with
decoherence,
production,
commercialization,
photonics
an
exciting
area
study
that
promises
lighting
techniques
impossible
conventional
optics.
To
realize
this
promise,
researchers
from
several
fields
must
work
together
solve
complex
technical
problems
decode
fundamental
physics.
Finally,
advances
have
potential
evolve
devices
cutting‐edge
methods
usher
a
age
options
based
on
dots.
ACS Synthetic Biology,
Journal Year:
2024,
Volume and Issue:
13(6), P. 1600 - 1620
Published: June 6, 2024
Antimicrobial
resistance
(AMR)
poses
a
critical
global
One
Health
concern,
ensuing
from
unintentional
and
continuous
exposure
to
antibiotics,
as
well
challenges
in
accurate
contagion
diagnostics.
Addressing
AMR
requires
strategic
approach
that
emphasizes
early
stage
prevention
through
screening
clinical,
environmental,
farming,
livestock
settings
identify
nonvulnerable
antimicrobial
agents
the
associated
genes.
Conventional
diagnostics,
like
antibiotic
susceptibility
testing,
possess
drawbacks,
including
high
costs,
time-consuming
processes,
significant
manpower
requirements,
underscoring
need
for
intelligent,
prompt,
on-site
diagnostic
techniques.
Nanoenabled
artificial
intelligence
(AI)-supported
smart
optical
biosensors
present
potential
solution
by
facilitating
rapid
point-of-care
detection
with
real-time,
sensitive,
portable
capabilities.
This
Review
comprehensively
explores
various
types
of
nanobiosensors,
such
surface
plasmon
resonance
sensors,
whispering-gallery
mode
coherence
tomography,
interference
reflection
imaging
surface-enhanced
Raman
spectroscopy,
fluorescence
microring
tweezer
biosensors,
By
harnessing
unique
advantages
these
nanoenabled
revolutionary
paradigm
shift
diagnostics
can
be
achieved,
characterized
results,
sensitivity,
portability,
integration
Internet-of-Things
(IoT)
technologies.
Moreover,
enable
personalized
monitoring
detection,
significantly
reducing
turnaround
time
eliminating
human
resources
needed
sample
preservation
transportation.
Their
holistic
environmental
surveillance
further
enhances
capabilities
diverse
settings,
leading
improved
modern-age
healthcare
practices
more
effective
management
treatments.
Embracing
advanced
tools
promises
bolster
capacity
combat
safeguard
Health.
ECS Journal of Solid State Science and Technology,
Journal Year:
2024,
Volume and Issue:
13(4), P. 047004 - 047004
Published: April 1, 2024
Early
diagnosis
through
noninvasive
tools
is
a
cornerstone
in
the
realm
of
personalized
and
medical
healthcare,
averting
direct/indirect
infection
transmission
directly
influencing
treatment
outcomes
patient
survival
rates.
In
this
context,
optical
biochip
breathomic
sensors
integrated
with
nanomaterials,
microfluidics,
artificial
intelligence
exhibit
potential
to
design
next-generation
intelligent
diagnostics.
This
cutting-edge
tool
offers
variety
advantages,
including
being
economical,
compact,
smart,
point
care,
highly
sensitive,
noninvasive.
makes
it
an
ideal
avenue
for
screening,
diagnosing,
prognosing
various
high-risk
diseases/disorders
by
detecting
associated
breath
biomarkers.
The
underlying
detection
mechanism
relies
on
interaction
biomarkers
sensors,
which
causes
modulations
fundamental
attributes,
such
as
surface
plasmon
resonance,
fluorescence,
reflectance,
absorption,
emission,
phosphorescence,
refractive
index.
Despite
these
remarkable
commercial
development
faces
challenges,
insufficient
support
from
clinical
trials,
concerns
about
cross-sensitivity,
challenges
related
production
scalability,
validation
issues,
regulatory
compliance,
contrasts
conventional
perspective
article
sheds
light
state
disease
diagnosis,
addresses
proposes
alternative
solutions,
explores
future
avenues
revolutionize
healthcare
