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Fall 2008 This is a newly produced version of the course that was formerly available. We would greatly appreciate your feedback regarding the new format and contents. Objective: To convey the basic concepts of nanoelectronics to electrical engineering students with no background in...
![[Audio] ECE 495N: Fundamentals of Nanoelectronics](https://nanohub.org/site/resources/2008/08/05346/itunes_audio.png "[Audio] ECE 495N: Fundamentals of Nanoelectronics")
Latest episodes of the podcast [Audio] ECE 495N: Fundamentals of Nanoelectronics
- ECE 495N Lecture 1: What Makes Current Flow?
- ECE 495N Lecture 39: Where is the Heating?
- ECE 495N Lecture 17: Basis Functions II
- ECE 495N Lecture 25: Density of Modes
- ECE 495N Lecture 14: Law of Equilibrium
- ECE 495N Lecture 24: Subbands
- ECE 495N Lecture 38: Spin Rotation
- ECE 495N Lecture 19: Bandstructures II
- ECE 495N Lecture 16: Basis Functions I
- ECE 495N Lecture 13: Multi-Electron Picture
- ECE 495N Lecture 37: Spin Matrices
- ECE 495N Lecture 11: Valence Electrons and Charging Energy
- ECE 495N Lecture 40: Thermoelectricity
- ECE 495N Lecture 31: Coherent Quantum Transport
- ECE 495N Lecture 23: Density of States II
- ECE 495N Lecture 30: Diffusive and Coherent Transport
- ECE 495N Lecture 27: Molecular to Ballistic Transport
- ECE 495N Lecture 41: Entropy
- ECE 495N Lecture 35: NEGF Continued II
- ECE 495N Lecture 20: Bandstructures III
- ECE 495N Lecture 29: Landauer Formula
- ECE 495N Lecture 15: Covalent Bonding
- ECE 495N Lecture 28: Reciprocal Lattice
- ECE 495N Lecture 12: Single Electron Charging
- ECE 495N Lecture 34: NEGF Continued I
- ECE 495N Lecture 32: Correlation and Spectral Functions
- ECE 495N Lecture 18: Bandstructures I
- ECE 495N Lecture 21: Graphene Bandstructures
- ECE 495N Lecture 33: Non-Equilibrium Green\'s Function (NEGF) Method
- ECE 495N Lecture 26: Ballistic Conductance
- ECE 495N Lecture 10: Shrödinger\'s Equation in 3-D
- ECE 495N Lecture 22: Density of States I
- ECE 495N Lecture 9: Finite Difference Method
- ECE 495N Lecture 36: Spin
- ECE 495N Lecture 2: Quantum of Conductance
- ECE 495N Lecture 3: Importance of Electrostatics
- ECE 495N Lecture 4: Quantitative Model for Nanodevices I
- ECE 495N Lecture 5: Quantitative Model for Nanodevices II
- ECE 495N Lecture 6: Quantitative Model for Nanodevices III
- ECE 495N Lecture 7: Quantum Capacitance/Shrödinger\'s Equation
- ECE 495N Lecture 8: Shrödinger\'s Equation
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