LEADER 04763nam  2201213z- 450 
001 9910367751003321
005 20231214133423.0
010   $a3-03921-605-8
035   $a(CKB)4100000010106207
035   $a(oapen)https://directory.doabooks.org/handle/20.500.12854/53148
035   $a(EXLCZ)994100000010106207
100   $a20202102d2019      |y         0
101 0 $aeng
135   $aurmn|---annan
181   $ctxt$2rdacontent
182   $cc$2rdamedia
183   $acr$2rdacarrier
200 10$aMEMS Technology for Biomedical Imaging Applications
210   $cMDPI - Multidisciplinary Digital Publishing Institute$d2019
215   $a1 electronic resource (218 p.)
311   $a3-03921-604-X 
330   $aBiomedical 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.
610   $amicromachining
610   $acapacitive micromachined ultrasonic transducer (CMUT)
610   $atransducer
610   $agold nanoparticles
610   $acantilever waveguide
610   $apush-pull actuator
610   $aMEMS mirror
610   $achemo-FET
610   $aultrahigh frequency ultrasonic transducer
610   $afluorescence
610   $alead-free piezoelectric materials
610   $aacoustics
610   $abioimaging
610   $ascanner
610   $amicro-optics
610   $aMEMS
610   $amicroendoscopy
610   $aego-motion estimation
610   $arib waveguide
610   $aelectromagnetically-driven
610   $atwo-photon
610   $aLissajous scanning
610   $afabrication
610   $amicrowave resonator
610   $afinite element simulation
610   $anoise figure
610   $aimaging
610   $amodelling
610   $aSi lens
610   $amicrowave remote sensing
610   $apiezoelectric array
610   $asmart hydrogels
610   $abio-FET
610   $asurface micromachining
610   $atilted microcoil
610   $anear-field microwave
610   $aelectrochemical sensors
610   $apotentiometric sensor
610   $aphotoacoustic imaging
610   $amicromachined US transducer
610   $aelectrostatic actuator
610   $apolyimide capillary
610   $ahigh frequency ultrasonic transducer
610   $amicroring resonator
610   $aultrasonic transducer
610   $aultrasonic imaging
610   $aindoor navigation
610   $aoptical scanner
610   $ascale ambiguity
610   $abio-sensors
610   $anon-resonating scanner
610   $awide-filed imaging
610   $aconfocal
610   $aacoustic delay line
610   $atight focus
610   $aminiaturized microscope
610   $amonocular camera
610   $alow noise amplifier (LNA)
610   $ain vivo
610   $acapacitive
610   $ahigh spatial resolution
610   $asensing
610   $amicroelectromechanical systems (MEMS)
610   $aneedle-type
610   $adisplay
610   $apseudo-resonant
610   $aMEMS actuators
610   $amicrotechnology
610   $ametal oxide field-effect transistor
610   $atransduction techniques
610   $aMEMS scanning mirror
610   $a3D Printing
610   $aphotoacoustic
610   $achemo-sensor
610   $ain vitro
610   $awearable sensors
700   $aZhou$b Qifa$4auth$01302270
702   $aZhang$b Yi$4auth
906   $aBOOK
912   $a9910367751003321
996   $aMEMS Technology for Biomedical Imaging Applications$93026321
997   $aUNINA