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Fundamentals of Nanoelectronics (Fall 2004)

By Supriyo Datta1, Behtash Behinaein1

1. Purdue University

 

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Lecture Number/Topic Online Lecture Video Lecture Notes Supplemental Material Suggested Exercises
ECE 453 Lecture 1: Energy Level Diagram View Flash View Notes
Reference Chapter 1.1

ECE 453 Lecture 2: What Makes Electrons Flow? View Flash View Notes
Reference Chapter 1.2

ECE 453 Lecture 3: Quantum of Conductance View Flash View Notes
Reference Chapters 1.3, 111

ECE 453 Lecture 4: Charging Effects 1 View Flash View Notes
Reference Chapter 1.4

ECE 453 Lecture 5: Charging Effects 2 View Flash View Notes
Reference Chapters 1.2 & 1.4

ECE 453 Lecture 6: Charging Effect, Towards Ohm's Law View Flash View Notes
Reference Chapters 1.4, 1.5 & 1.6

ECE 453 Lecture 7: Hydrogen Atom View Flash View Notes
Reference Chapter 2.1

ECE 453 Lecture 8: Schrödinger Equation 1 View Flash View Notes
Reference Chapter 2.1

ECE 453 Lecture 9: Schrödinger Equation 2 View Flash View Notes
Reference Chapter 2.1

ECE 453 Lecture 10: Finite Difference Method 1 View Flash View Notes
Reference Chapter 2.2

ECE 453 Lecture 11: Finite Difference Method 2 View Flash View Notes
Reference Chapter 2.2

ECE 453 Lecture 12: Separation of Variables View Flash View Notes
Reference Chapters 2.2 & 2.3

ECE 453 Lecture 13: Atomic Energy Levels View Flash View Notes
Reference Chapters 2.2 & 2.3

ECE 453 Lecture 14: Covalent Bonds View Flash View Notes
Reference Chapter 3.3

ECE 453 Lecture 15a: Basis Functions 1 View
This lecture is available only in video format.

ECE 453 Lecture 15b: Basis Functions 2 View
This lecture is available only in video format.

ECE 453 Lecture 15c: Basis Functions 3 View
This lecture is available only in video format.

ECE 453 Lecture 16: Bandstructure 1 View Flash View Notes
Reference Chapter 5.1

ECE 453 Lecture 17: Bandstructure 2 View Flash View Notes
Reference Chapter 5.1

ECE 453 Lecture 18: Bandstructure 3 View Flash View Notes
Reference Chapters 5.1 & 5.2

ECE 453 Lecture 19: Bandstructure 4 View Flash View Notes
Reference Chapters 5.1 & 5.2

ECE 453 Lecture 20: Reciprocal Lattice View Flash View Notes
Reference Chapter 5.2

ECE 453 Lecture 21: Graphene Bandstructure View Flash View Notes
Reference Chapter 6.1

ECE 453 Lecture 22: Carbon Nanotubes View Flash View Notes
Reference Chapter 6.1

ECE 453 Lecture 23: Subbands View Flash View Notes
Reference Chapter 6.1

ECE 453 Lecture 24: Density of States View Flash View Notes
Reference Chapter 6.2

ECE 453 Lecture 25: Density of States: General Approach View Flash View Notes
Reference Chapter 6.2

ECE 453 Lecture 26: Density of States in Nanostructures View Flash View Notes
Reference Chapter 6.2

ECE 453 Lecture 27: Minimum Resistance of a Wire 1 View Flash View Notes
Reference Chapter 6.3

ECE 453 Lecture 28: Minimum Resistance of a Wire 2 View Flash View Notes
Reference Chapter 6.3

ECE 453 Lecture 29: Effective Mass Equation View Flash View Notes
Reference Chapter 7.1

ECE 453 Lecture 30: Quantum Capacitance View Flash View Notes
Reference Chapter 7.3

ECE 453 Lecture 31: Broadening View Flash View Notes
Reference Chapter 8.1

ECE 453 Lecture 32: Broadening and Lifetime View Flash View Notes
Reference Chapter 8.1

ECE 453 Lecture 33: Local Density of States View Flash View Notes
Reference Chapter 8.2

ECE 453 Lecture 34: Current/Voltage Characteristics View Flash View Notes
Reference Chapter 9.1

ECE 453 Lecture 35: Transmission View Flash View Notes



ECE 453 Lecture 36: Coherent Transport View Flash View Notes
Reference Chapter 9.1

ECE 453 Lecture 37: Wavefunction versus Green's Function View Flash View Notes
Reference Chapter 9.1

ECE 453 Lecture 38: Ohm's Law View Flash View Notes
Reference Chapter 9.4

ECE 453 Lecture 39: Coulomb Blockade View Flash View Notes
Reference Chapter 3.4

ECE 453 Lecture 40: Summary View Flash View Notes



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