TY - BOOK ID - 61122641 TI - MEMS Technology for Biomedical Imaging Applications AU - Zhou, Qifa AU - Zhang, Yi PY - 2019 SN - 3039216058 303921604X PB - MDPI - Multidisciplinary Digital Publishing Institute DB - UniCat KW - micromachining KW - n/a KW - capacitive micromachined ultrasonic transducer (CMUT) KW - transducer KW - gold nanoparticles KW - cantilever waveguide KW - push-pull actuator KW - MEMS mirror KW - chemo-FET KW - ultrahigh frequency ultrasonic transducer KW - fluorescence KW - lead-free piezoelectric materials KW - acoustics KW - bioimaging KW - scanner KW - micro-optics KW - MEMS KW - microendoscopy KW - ego-motion estimation KW - rib waveguide KW - electromagnetically-driven KW - two-photon KW - Lissajous scanning KW - fabrication KW - microwave resonator KW - finite element simulation KW - noise figure KW - imaging KW - modelling KW - Si lens KW - microwave remote sensing KW - piezoelectric array KW - smart hydrogels KW - bio-FET KW - surface micromachining KW - tilted microcoil KW - near-field microwave KW - electrochemical sensors KW - potentiometric sensor KW - photoacoustic imaging KW - micromachined US transducer KW - electrostatic actuator KW - polyimide capillary KW - high frequency ultrasonic transducer KW - microring resonator KW - ultrasonic transducer KW - ultrasonic imaging KW - indoor navigation KW - optical scanner KW - scale ambiguity KW - bio-sensors KW - non-resonating scanner KW - wide-filed imaging KW - confocal KW - acoustic delay line KW - tight focus KW - miniaturized microscope KW - monocular camera KW - low noise amplifier (LNA) KW - in vivo KW - capacitive KW - high spatial resolution KW - sensing KW - microelectromechanical systems (MEMS) KW - needle-type KW - display KW - pseudo-resonant KW - MEMS actuators KW - microtechnology KW - metal oxide field-effect transistor KW - transduction techniques KW - MEMS scanning mirror KW - 3D Printing KW - photoacoustic KW - chemo-sensor KW - in vitro KW - wearable sensors UR - https://www.unicat.be/uniCat?func=search&query=sysid:61122641 AB - 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. ER -