Plasmonics is a rapidly-growing field of nanotechnology that is revolutionizing the way we think about light. Plasmonics is the study of the interaction between light and metal nanostructures, and the optical properties that arise from this interaction. By manipulating light at the nanoscale, plasmonics enables us to manipulate light in ways that are impossible with traditional optics. Plasmonics leverages the properties of metal nanostructures, such as nanoparticles, nanowires, and nanotubes, to manipulate light. These nanostructures are designed to interact with light in a particular way, such as scattering, absorbing, or reflecting it. By using these nanostructures, we can control the direction, intensity, and color of the light, as well as its wavelength and polarization. The most common application of plasmonics is in photovoltaics, where plasmonic nanostructures are used to increase the efficiency of solar cells. Other applications of plasmonics include biosensing, optical computing, and nano-optics. Plasmonics is a promising field of nanotechnology with many potential applications. With the ability to manipulate light on the nanoscale, plasmonics could enable us to build smaller, faster, and more efficient devices that use light in novel and innovative ways.
Thomas J Webster
Hebei University of Technology, United States
Hossein Hosseinkhani
Innovation Center for Advanced Technology, Matrix, Inc., United States
Hai Feng Ji
Drexel University, United States
Paulo Cesar De Morais
Catholic University of Brasilia, Brazil
Azzedine Bensalem
Long Island University, United States
Robert Buenker
Wuppertal University, Germany
Rafal Kozubski
Jagiellonian University in Krakow, Poland
Sylwia Wcislik
Kielce University of Technology, Poland
Raman Singh
Monash University-Clayton Campus, Australia
Michael I Tribelsky
Moscow State University, Russian FederationSubmit your abstract Today
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