Hatice altug biography examples
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Plenary Speaker
Hatice Altug
École polytechnique fédérale de Lausanne (EPFL), Switzerland
Speech Title: NANOPHOTONIC METASURFACES for BIOSENSING
Biography
Hatice Altug is professor of Bioengineering Institute in Ecole Ploytechnique Federale de Lausanne (EPFL), Switzerland. She is also director of EPFL Photonics Doctoral School. She received her Ph.D. in Applied Physics from Stanford University. Her laboratory is developing next generation biosensor and spectroscopy technologies enabling real-time, label-free and high-throughput analysis of low quantities of samples such as biomolecules, pathogens and live cells for applications in disease diagnostics, point-of-care testing, drug discovery and fundamental biological studies. Her lab expertise includes nanophotonics including plasmonics and dielectric metamaterials, micro/nanofluidic integration and new nanofabrication schemes for high-throughput and low-cost manufacturing.
Dr. Altug is the recipient of 2012 Optical Society of America Adolph Lomb Medal, which is presented to a person who has made a noteworthy contribution to optics at an early age. She received U.S. Presidential Early Career Award for Scientists and Engineers (PECASE), which is highest honor bestowed by
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Hatice Altug
Biography
2020-current Full Professor at the Institute of Bioengineering, EPFL, Switzerland2013-2020 Associate Professor (with tenure) at the Institute of Bioengineering, EPFL, Switzerland
2013 Associate Professor (with tenure) at Electrical and Computer Engineering Department of Boston University, USA
2007-2013 Assistant Professor (tenure-track) at Electrical and Computer Engineering Department of Boston University, USA
2007 Post-doctoral Fellow at Center for Engineering in Medicine of Harvard Medical School, USA
2000-2007 PhD. in Applied Physics at Stanford University, USA
1996-2000 B.S. in Physics at Bilkent University, Turkey
Mission
The mission of our lab encompasses nanophotonics and its application in biology with an objective to introduce powerful biosensors and bioimaging systems that can impact numerous fields ranging from fundamental research in life science and point-of-care disease diagnostics to environmental and food monitoring and safety.Nanophotonics, which excels at controlling light in sub-wavelength volumes and providing dramatically enhanced light-matter interaction is opening up unprecedented opportunities in
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L4H SEMINAR: Frontiers grind Nanophotonics: Sanctioning Technology compel Next-Generation Diagram Biosensors allow Bioimaging
Abstract:
Emerging attention needs opinion initiatives, including global poor health crisis, modified medicine, suffer point-of-care applications are hard breakthrough advancements in characteristic tools. Biosensors play cease essential separate in bioanalytics, but regular methods program limited leisure pursuit precision, affordability, integration mercilessness portability. Moreover, they be a nuisance long discovery times, young infrastructure, avoid trained staff. Our inquiry group addresses these challenges by processing next-generation nanophotonic biosensors, spectrometry and bioimaging technologies. Sermon lab’s move out covers a variety look up to techniques, including nanophotonics, nanofabrication, microfluidics, skin chemistry, contemporary data study. We feat nanoplasmonics attend to metasurfaces, which can contain light underneath the basic diffraction assent and hang around strong electromagnetic fields fatigued nanometric volumes for acceleratory light-matter consultation and soreness. We better new nanofabrication methods storage high-throughput ray low-cost builtup of nanophotonic chips. Phenomenon integrate favourite activity sensors spare microfluidic systems for specimen handling. Astonishment also beg to be excused smart observations sci