Advanced Certificate in Plasmonic Nanomaterials: Innovations
-- ViewingNowThe Advanced Certificate in Plasmonic Nanomaterials: Innovations is a comprehensive course designed to provide learners with the essential skills and knowledge necessary to excel in the field of nanomaterials and plasmonics. This certificate course covers the latest advancements in plasmonic nanomaterials, their synthesis, characterization, and applications in various industries such as healthcare, electronics, and energy.
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⢠Fundamentals of Plasmonic Nanomaterials: An introduction to the basic concepts of plasmonic nanomaterials, including surface plasmons, localized surface plasmons, and plasmonic resonance. This unit will provide a solid foundation for understanding the properties and behavior of plasmonic nanomaterials. ⢠Synthesis and Fabrication Techniques for Plasmonic Nanomaterials: This unit will cover the various methods used to synthesize and fabricate plasmonic nanomaterials, including chemical synthesis, physical vapor deposition, and lithography. Students will learn about the advantages and disadvantages of each method and how to choose the appropriate technique for a given application. ⢠Optical Properties of Plasmonic Nanomaterials: This unit will explore the optical properties of plasmonic nanomaterials, including absorption, scattering, and extinction. Students will learn about the relationship between the size, shape, and composition of plasmonic nanomaterials and their optical properties. ⢠Applications of Plasmonic Nanomaterials: This unit will cover the various applications of plasmonic nanomaterials, including sensing, imaging, and photothermal therapy. Students will learn about the unique properties of plasmonic nanomaterials that make them well-suited for these applications and how to choose the appropriate nanomaterial for a given application. ⢠Advanced Topics in Plasmonic Nanomaterials: This unit will delve into advanced topics in plasmonic nanomaterials, including nonlinear plasmonics, plasmonic metasurfaces, and plasmon-exciton interactions. Students will learn about the latest research and developments in the field and how to apply this knowledge to real-world problems. ⢠Computational Modeling of Plasmonic Nanomaterials: This unit will cover the use of computational modeling to study the properties and behavior of plasmonic nanomaterials. Students will learn about the various computational techniques used to model plas
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