Nano to Macro Transport Processes free videos and free material uploaded by Massachusetts Institute of Technology Staff .
Intro to Nanotechnology and Nanoscale Transport Phenomena
Characteristic Time and Length, Simple Kinetic Theory
Schrödinger Equation and Material Waves
Solution of Schrödinger Equation, Energy Quantization
Electronic Levels in One-Dimensional Lattice Chain
Crystal Bonding and Electronic Energy Levels in Crystals
Phonon Energy Levels in Crystal and Crystal Structures
Density of States and Statistical Distributions
Specific Heat and Planck’s Law
Fundamental of Statistical Thermodynamics
Energy Transfer by Waves: Plane Waves
Electromagnetic Waves: Reflection at a Single Interface
EM Wave Propagation Through Thin Films and Multilayers
Wave Phenomena and Landauer Formalism
Particle Description, Liouville and Boltzmann Equations
Fermi Golden Rule and Relaxation Time Approximation
Solutions to Boltzmann Equation: Diffusion Laws
Electron Transport and Thermoelectric Effects
Classical Size Effects, Parallel Direction
Classical Size Effects, Perpendicular Direction
Slip Condition, Coupled Energy Transport and Conversion
PN junction, Diode and Photovoltaic Cells
Liquids: Brownian Motion and Forces in Liquids
Electrical Double Layer, Size Effects in Phase Change
Statistical Foundation for Molecular Dynamics Simulation
Parallel treatments of photons, electrons, phonons, and molecules as energy carriers, aiming at fundamental understanding and descriptive tools for energy and heat transport processes from nanoscale continuously to macroscale. Topics include the energy levels, the statistical behavior and internal energy, energy transport in the forms of waves and particles, scattering and heat generation processes, Boltzmann equation and derivation of classical laws, deviation from classical laws at nanoscale and their appropriate descriptions, with applications in nano- and microtechnology.
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