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2.57 Nano-to-Micro Transport Processes (Spring 2012, MIT OCW). Instructor: Professor Gang Chen.

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September 21, 2023

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September 21, 2023

Duration:

Unlimited Duration

FREE

This course includes:

Unlimited Duration

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Unlimited Duration

Description

2.57 Nano-to-Micro Transport Processes (Spring 2012, MIT OCW). Instructor: Professor Gang Chen.

This course aims at a fundamental understanding of descriptive tools for energy and heat transport processes, from nanoscale 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. (from ocw.mit.edu)

Course Curriculum

  • Lecture 01 – Intro to Nanotechnology, Nanoscale Transport Phenomena Unlimited
  • Lecture 02 – Characteristic Time and Length, Simple Kinetic Theory Unlimited
  • Lecture 03 – Schrodinger Equation and Material Waves Unlimited
  • Lecture 04 – Solutions to Schrodinger Equation, Energy Quantization Unlimited
  • Lecture 05 – Electronic Levels in One-Dimensional Lattice Chain Unlimited
  • Lecture 06 – Crystal Bonding; Electronic Energy Levels in Crystals Unlimited
  • Lecture 07 – Phonon Energy Levels in Crystal and Crystal Structures Unlimited
  • Lecture 08 – Density of States and Statistical Distributions Unlimited
  • Lecture 09 – Specific Heat and Planck’s Law Unlimited
  • Lecture 10 – Fundamental of Statistical Thermodynamics Unlimited
  • Lecture 11 – Energy Transfer by Waves: Plane Waves Unlimited
  • Lecture 12 – EM Waves: Reflection at a Single Interface Unlimited
  • Lecture 13 – EM Wave Propagation Through Thin Films and Multilayers Unlimited
  • Lecture 14 – Wave Phenomena and Landauer Formalism Unlimited
  • Lecture 15 – Particle Description, Liouville and Boltzmann Equations Unlimited
  • Lecture 16 – Fermi Golden Rule and Relaxation Time Approximation Unlimited
  • Lecture 17 – Solutions to Boltzmann Equation: Diffusion Laws Unlimited
  • Lecture 18 – Electron Transport and Thermoelectric Effects Unlimited
  • Lecture 19 – Classical Size Effects, Parallel Direction Unlimited
  • Lecture 20 – Classical Size Effects, Perpendicular Direction Unlimited
  • Lecture 21 – Slip Condition, Coupled Energy Transport & Conversion Unlimited
  • Lecture 22 – PN Junction, Diode and Photovoltaic Cells Unlimited
  • Lecture 23 – Liquids: Brownian Motion and Forces in Liquids Unlimited
  • Lecture 24 – Electrical Double Layer, Size Effects in Phase Change Unlimited
  • Lecture 25 – Statistical Foundation for Molecular Dynamics Simulation Unlimited

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