
BME 695N Lecture 9: Atomic Force Microscopy (AFM) for Nanomedical Systems (cells and nanoparticles)
30 Sep 2007  Online Presentations  Contributor(s): Helen McNally
What Helen McNally as guest lecturer.

BNC Annual Research Symposium: Nanoscale Energy Conversion
23 Apr 2007  Online Presentations  Contributor(s): Timothy S Fisher
This presentation is part of a collection of presentations describing the projects, people, and capabilities enhanced by research performed in the Birck Center, and a look at plans for the upcoming year.

Introductory Seminars on What is Nanotechnology?
06 Apr 2010  Series  Contributor(s): Joseph M. Cychosz (editor)
A collection of presentations which answer an aspect of the question "What is nano?"

ECE 656: Electronic Transport in Semiconductors (Fall 2011)
29 Aug 2011  Courses  Contributor(s): Mark Lundstrom
This course is about how charge flows in semiconductors with an emphasis on transport in nanoscale devices. The objective is to develop a broad understanding of basic concepts. The course is designed for those who work on electronic materials and devices – whether they are...

ECE 612 Lecture 6: MOSFET IV: Velocity saturation
07 Oct 2008  Online Presentations  Contributor(s): Mark Lundstrom
Outline: 1) Review,2) Bulk charge theory (approximate),3) Velocity saturation theory,4) Summary.

Bionanotechnology: a different perspective
30 Apr 2008  Online Presentations  Contributor(s): Murali Sastry
The study of the synthesis, exotic properties, assembly/packaging and potential commercial application of nanomaterials is an extremely important topic of research that is expected to have farreaching global impact. The focus of my talk will be on an emerging branch of nanotechnology that...

MSE 376 Lecture 18: Nanoelectromechanical Systems, part 1
31 Mar 2007  Online Presentations  Contributor(s): Mark Hersam

ECET 499N: Nanoelectronics
30 Mar 2009  Online Presentations  Contributor(s): Supriyo Datta
How does the resistance of a conductor change as we shrink its length all the way down to a few atoms? This is a question that has only become answerable during the last twenty years of work by experimentalists, leading to enormous progress in transistor development. This introductory lecture...

ECE 453 Lecture 27: Minimum Resistance of a Wire 1
03 Nov 2004  Online Presentations  Contributor(s): Supriyo Datta
Reference Chapter 6.3

Slides: Landauer's formula derivation
08 Jul 2008  Teaching Materials  Contributor(s): Dragica Vasileska
www.eas.asu.edu/~vasileskNSF

ECE 606 Lecture 22: Nonideal Effects
11 Mar 2009  Online Presentations  Contributor(s): Muhammad A. Alam

ECE 659 Lecture 24: Capacitance: Electron Density
24 Mar 2004  Online Presentations  Contributor(s): Supriyo Datta
Reference Chapter 7.2

ECE 606 Lecture 30: Heterojunction Bipolar Transistors I
04 Apr 2009  Online Presentations  Contributor(s): Muhammad A. Alam

MSE 597G Lecture 2: Statistical Mechanics I
11 Nov 2008  Online Presentations  Contributor(s): Alejandro Strachan
Basic physics: statistical mechanics.

ECE 495N Lecture 32: Correlation and Spectral Functions
08 Dec 2008  Online Presentations  Contributor(s): Supriyo Datta

Periodic Potentials and the KronigPenney Model
01 Jul 2008  Teaching Materials  Contributor(s): Dragica Vasileska
This material describes the derivation of the KronigPenney model for deltafunction periodic potentials.

Illinois ECE 440: MOS FieldEffect Transistor Homework
28 Jan 2010  Teaching Materials  Contributor(s): Mohamed Mohamed
This homework covers Output Characteristics and Mobility Model of MOSFETs.

ECE 612 Lecture 31: Heterostructure Fundamentals
08 Dec 2006  Online Presentations  Contributor(s): Mark Lundstrom

ECE 656 Lecture 10: The DriftDiffusion Equation
30 Sep 2009  Online Presentations  Contributor(s): Mark Lundstrom
Outline:Transport in the bulkThe DD equationIndicial notationDD equation with Bfield

MuGFET
17 Jan 2008  Tools  Contributor(s): SungGeun Kim, Gerhard Klimeck, Sriraman Damodaran, Benjamin P Haley
Simulate the nanoscale multigateFET structures (finFET and nanowire) using drift diffusion approaches