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[Illinois] Foundations of Nanoscience: Self-Assembled Architectures and Devices
23 Oct 2015 | Workshops | Contributor(s): Alan Rowan, Erik Luijten, Mark Brongersma, Graham Johnson, Ayusman Sen, Michelle Khine, Erkang Wang, Michael Famulok, Milan Stojanovic
[Illinois] Device Applications of Metafilms and Metasurfaces
23 Oct 2015 | Online Presentations | Contributor(s): Mark Brongersma
Mark Brongersma is a Professor in the Department of Materials Science and Engineering at Stanford University. He received his PhD in Materials Science from the FOM Institute in Amsterdam, The Netherlands, in 1998. From 1998-2001 he was a postdoctoral research fellow at the California Institute of Technology. During this time, he coined the term “Plasmonics” for a new device technology that exploits the unique optical properties of nanoscale metallic structures to route and manipulate light at the nanoscale. His current research is directed towards the development and physical analysis of nanostructured materials that find application in nanoscale electronic and photonic devices. Brongersma received a National Science Foundation Career Award, the Walter J. Gores Award for Excellence in Teaching, the International Raymond and Beverly Sackler Prize in the Physical Sciences (Physics) for his work on plasmonics, and is a Fellow of the Optical Society of America, the SPIE, and the American Physical Society.
Nanoscale Photon Management for Solar Energy Harvesting
27 Nov 2013 | Online Presentations | Contributor(s): Mark Brongersma
Nanophotonics is an exciting new field of science and technology that is directed towards making the smallest possible structures and devices that can manipulate light. In this presentation, I will start by showing how semiconductor and metallic nanostructures can mold the flow of light in unexpected ways and well below the diffraction limit. I will then continue by illustrating how such nanostructures can be used to enhance our ability to harvest solar energy with solar cells and photoelectrochemical cells for generating solar fuel. In this part of the talk, it will become obvious how very different ways of photon management can be achieved by controlling the size and spacing (wavelength-scale/subwavelength-scale), shape, and spatial arrangement (periodic/aperiodic) of the nanostructures. I will conclude by showing how nanophotonics can also be used in the fabrication of critical components of solar energy harvesting devices.
Hybrid Nanophotonics: A Happy Marriage of Metals and Semiconductors
15 Jan 2013 | Online Presentations | Contributor(s): Mark Brongersma
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