Executive Development Programme in Plasmonic Nanoregeneration: Connected Systems
-- ViewingNowThe Executive Development Programme in Plasmonic Nanoregeneration: Connected Systems is a cutting-edge certificate course that focuses on the rapidly growing field of nanotechnology and regenerative energy. This programme is designed to equip learners with essential skills and knowledge in plasmonic nanoregeneration, connected systems, and energy harvesting technologies.
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⢠Introduction to Plasmonic Nanoregeneration: Understanding the fundamentals of plasmonic nanotechnology and its potential applications in energy conversion and harvesting.
⢠Nanomaterials and Nanostructures: Exploring various materials and structures used in plasmonic nanoregeneration, including metal nanoparticles, nanorods, and nanoshells.
⢠Connected Systems in Plasmonic Nanoregeneration: Examining the design and implementation of interconnected systems for plasmonic nanoregeneration, including sensors, actuators, and energy harvesters.
⢠Plasmonic Solar Cells: Delving into the development and optimization of plasmonic solar cells for efficient energy conversion, with a focus on material selection, device architecture, and system integration.
⢠Plasmonic Photocatalysis: Investigating the use of plasmonic nanostructures for photocatalytic reactions, including water splitting, CO2 reduction, and organic synthesis.
⢠Plasmonic Biosensors: Exploring the design and fabrication of plasmonic biosensors for label-free detection of biomolecules, with a focus on sensitivity, selectivity, and multiplexing.
⢠Plasmonic Thermophotovoltaics: Examining the principles and applications of plasmonic thermophotovoltaics for waste heat recovery and energy conversion.
⢠Plasmonic Nanoantennas: Delving into the design and optimization of plasmonic nanoantennas for energy harvesting and sensing, with a focus on resonance frequency, directivity, and efficiency.
⢠Simulation and Modeling Tools: Introducing various simulation and modeling tools for plasmonic nanoregeneration, including finite-difference time-domain (FDTD) and finite element method (FEM) simulations.
⢠Industrial Applications and Challenges
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