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Martín Zalazar
Development of Mass Microsensors for Implantable MEMS
2014. 268 S. 220 mm
Verlag/Jahr: SCHOLAR´S PRESS 2014
ISBN: 3-639-70836-9 (3639708369)
Neue ISBN: 978-3-639-70836-3 (9783639708363)
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Glaucoma is a disease that affects tens of millions of people around the world. The development of MEMS and the generation of new materials allow the development of implantable micro-devices with improved biocompatibility. The knowledge of biomolecules associated with the glaucoma pathology will increase the effectiveness of a microvalve for glaucoma tretmentt. In this sense, a mass microsensor capable of sensing biomolecules is desirable. This book was focused on the design, simulation, fabrication and characterization of MEMS-based mass microsensors for the detection of biomolecules. Regarding the biocompatibility, UNCD and Parylene were used as structural materials; as piezoelectric materials, quartz, PVDF and AlN were used. The parameters of the resonators were extracted by using 3D FEM models and experimental results. UNCD films used as substrate, yielded a highly oriented (002) AlN films even as thin as 80 nm; it exhibited a piezoelectric coefficient of about 5.3 pm/V, one of the highest demonstrated today. AlN/diamond structure is a very promising device for FBAR applications so it opens a huge field of biomedical applications.
Postdoctoral position at the Laboratory of BioMEMS at FI-UNER, Argentina. PhD degree in Engineering Sciences, Field of Computational Mechanics in 2013 at FICH, Argentina. Fellowship for researchers (Fulbright Bunge y Born) during 2011-2012 at Argonne National Laboratory, USA. Bioengineering degree at FI-UNER in 2007.