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Emerging Frontiers in Plasmonics: Nanostructured Materials for Solar Energy Conversion and Catalysis |
Presented by Jose Navarrete, UCSB Time: 14:30 p.m., April 4, 2014 Location: E321, Measurement Buliding, SINANO Abstract: Surface plasmon resonance (SPR) occurs when nanostructured metals are illuminated with an electromagnetic field that causes a collective oscillation of the conduction electrons in the material. More importantly, the SPR can decay into a hot-electron and hole pair that can be separated along an interface to drive useful chemical or electrical work. The conversion of solar energy to electricity or to fuels based on electron-hole pair separation in semiconductors is a well-established scientific field, and the use of plasmonics is poised to introduce an entirely new precedent in photoconversion processes. Because gold has a SPR that lies within the visible light spectrum, we are able to harness the sun’s energy to generate charge carriers that can either be transferred to a neighboring semiconductor or directly to a catalyst. In this talk, I will be giving a brief introduction to surface plasmons, as well as highlighting our current research efforts in using surface plasmons for both solar energy conversion and catalytic processes. Biography: Jose Navarrete is currently pursuing his PhD in physical chemistry under the direction of Professor Martin Moskovits in the Department of Chemistry and Biochemistry at the University of California-Santa Barbara. He graduated with his Bachelor of Science degree in Chemistry from Texas State University-San Marcos in 2008. Jose was awarded a PIRE-ECCI (Partnership for International Research and Education in Electron Chemistry and Catalysis at Interfaces) fellowship that has funded his collaboration with Prof. Jinping Zhang at SINANO.
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