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MEMS Technology for Biomedical Imaging Applications



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Autore: Zhou Qifa Visualizza persona
Titolo: MEMS Technology for Biomedical Imaging Applications Visualizza cluster
Pubblicazione: MDPI - Multidisciplinary Digital Publishing Institute, 2019
Descrizione fisica: 1 electronic resource (218 p.)
Soggetto non controllato: micromachining
capacitive micromachined ultrasonic transducer (CMUT)
transducer
gold nanoparticles
cantilever waveguide
push-pull actuator
MEMS mirror
chemo-FET
ultrahigh frequency ultrasonic transducer
fluorescence
lead-free piezoelectric materials
acoustics
bioimaging
scanner
micro-optics
MEMS
microendoscopy
ego-motion estimation
rib waveguide
electromagnetically-driven
two-photon
Lissajous scanning
fabrication
microwave resonator
finite element simulation
noise figure
imaging
modelling
Si lens
microwave remote sensing
piezoelectric array
smart hydrogels
bio-FET
surface micromachining
tilted microcoil
near-field microwave
electrochemical sensors
potentiometric sensor
photoacoustic imaging
micromachined US transducer
electrostatic actuator
polyimide capillary
high frequency ultrasonic transducer
microring resonator
ultrasonic transducer
ultrasonic imaging
indoor navigation
optical scanner
scale ambiguity
bio-sensors
non-resonating scanner
wide-filed imaging
confocal
acoustic delay line
tight focus
miniaturized microscope
monocular camera
low noise amplifier (LNA)
in vivo
capacitive
high spatial resolution
sensing
microelectromechanical systems (MEMS)
needle-type
display
pseudo-resonant
MEMS actuators
microtechnology
metal oxide field-effect transistor
transduction techniques
MEMS scanning mirror
3D Printing
photoacoustic
chemo-sensor
in vitro
wearable sensors
Persona (resp. second.): ZhangYi
Sommario/riassunto: Biomedical imaging is the key technique and process to create informative images of the human body or other organic structures for clinical purposes or medical science. Micro-electro-mechanical systems (MEMS) technology has demonstrated enormous potential in biomedical imaging applications due to its outstanding advantages of, for instance, miniaturization, high speed, higher resolution, and convenience of batch fabrication. There are many advancements and breakthroughs developing in the academic community, and there are a few challenges raised accordingly upon the designs, structures, fabrication, integration, and applications of MEMS for all kinds of biomedical imaging. This Special Issue aims to collate and showcase research papers, short commutations, perspectives, and insightful review articles from esteemed colleagues that demonstrate: (1) original works on the topic of MEMS components or devices based on various kinds of mechanisms for biomedical imaging; and (2) new developments and potentials of applying MEMS technology of any kind in biomedical imaging. The objective of this special session is to provide insightful information regarding the technological advancements for the researchers in the community.
Titolo autorizzato: MEMS Technology for Biomedical Imaging Applications  Visualizza cluster
ISBN: 3-03921-605-8
Formato: Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione: Inglese
Record Nr.: 9910367751003321
Lo trovi qui: Univ. Federico II
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