Advanced Certificate in Nanofluidics: Problem Solving
-- ViewingNowThe Advanced Certificate in Nanofluidics: Problem Solving is a comprehensive course designed to equip learners with the essential skills needed to excel in the rapidly evolving field of nanofluidics. This certificate course focuses on the latest advancements in nanofluidics, including microfluidics, lab-on-a-chip technology, and nanoparticle manipulation.
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⢠Fundamentals of Nanofluidics: Understanding the basics of nanofluidics, including fluid behavior, transport phenomena, and surface forces at the nanoscale. This unit will provide a solid foundation for advanced problem-solving techniques.
⢠Nanofluidic Devices and Applications: Exploring the design, fabrication, and applications of nanofluidic devices, such as lab-on-a-chip systems, nanopore sensors, and energy harvesting devices.
⢠Computational Nanofluidics: Delving into the numerical methods and simulation techniques used to model nanofluidic systems, including molecular dynamics, lattice Boltzmann methods, and finite element methods.
⢠Electrokinetic Phenomena in Nanofluidics: Examining the role of electric fields in nanofluidic systems, including electroosmotic flow, electrophoresis, and dielectrophoresis.
⢠Nanofluidic Transport in Porous Media: Investigating the transport of fluids and solutes in porous media, including nanoporous materials, and their impact on environmental, energy, and biomedical applications.
⢠Nanofluidic Surface Chemistry: Analyzing the surface chemistry of nanofluidic systems, including the impact of surface roughness, wettability, and functionalization on fluid behavior and transport.
⢠Nanofluidic Characterization Techniques: Learning about the experimental techniques used to characterize nanofluidic systems, such as atomic force microscopy, scanning electron microscopy, and fluorescence microscopy.
⢠Advanced Problem-Solving Techniques in Nanofluidics: Applying advanced mathematical and computational methods to solve complex problems in nanofluidic systems, including optimization, uncertainty quantification, and machine learning.
⢠Nanofluidic Applications in Biology and Medicine: Focusing on the use of nanofluidics in biological and medical applications, including drug delivery, diagnostics, and synthetic biology.
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