Courses (1-12 of 12)

1. CHM 696: Supramolecular and Nanostructured Materials

   22 Feb 2011 | | Contributor(s):: Alexander Wei

2. ECE 595Z Digital Systems Design Automation

   24 Aug 2012 | | Contributor(s):: Anand Raghunathan

3. ECE 659 Quantum Transport: Atom to Transistor

   out of 5 stars 

   27 Jan 2009 | | Contributor(s):: Supriyo Datta

   Spring 2009 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. Traditionally atomistic approaches have been used to model materials in terms of average parameters like the...

4. ECE 695A Reliability Physics of Nanotransistors

   out of 5 stars 

   17 Jan 2013 | | Contributor(s):: Muhammad Alam

   This course will focus on the physics of reliability of small semiconductor devices. In traditional courses on device physics, the students learn how to compute current through a device when a voltage is applied.

5. Illinois ABE 446: Biological Nanoengineering

   out of 5 stars 

   11 Feb 2010 | | Contributor(s):: Kaustubh Bhalerao

   Nanodevice design through organization of functional biological components; bio-molecular function and bioconjugation techniques in nanotechnology; modulation of biological systems using nanotechnology; issues related to applying biological nanotechnology in food energy, health, and the...

6. Illinois MatSE485/Phys466/CSE485 - Atomic-Scale Simulation

   out of 5 stars 

   27 Jan 2009 | | Contributor(s):: David M. Ceperley

   THE OBJECTIVE is to learn and apply fundamental techniques used in (primarily classical) simulations in order to help understand and predict properties of microscopic systems in materials science, physics, chemistry, and biology. THE EMPHASIS will be on connections between the simulation...

7. MSE 376 Nanomaterials

   out of 5 stars 

   24 Oct 2006 | | Contributor(s):: Mark C. Hersam

   "Nanomaterials," is an interdisciplinary introduction to processing, structure, and properties of materials at the nanometer length scale. The course will cover recent breakthroughs and assess the impact of this burgeoning field. Specific nanofabrication topics include epitaxy, beam...

8. MSE 640 Transmission Electron Microscopy and Crystalline Imperfections

   out of 5 stars 

   25 Feb 2008 | | Contributor(s):: Eric Stach

9. PHYS 620: Optical Properties of Solids

   out of 5 stars 

   13 Feb 2013 | | Contributor(s):: Roberto Merlin

   Winter 2013Course Outline:INTRODUCTION, ELECTRODYNAMICS OF CONTINUOUS MEDIA (Maxwell’s equations. Permittivity and permeability. Scattering).KRAMERS-KRÖNIG RELATIONS, PHENOMENOLOGICAL MODELS (Drude and Lorentz models. Quantum mechanical description).SEMICONDUCTORS: INTERBAND...

10. Rappture Bootcamp: Building and Deploying Tools

    out of 5 stars 

    16 Jul 2012 | | Contributor(s):: Michael McLennan

    This tutorial, presented at the NCN Rappture Bootcamp at Purdue (May 22-24, 2012), shows you exactly how you can upload your own code onto a hub and publish a tool for a limited group of colleagues or for the entire world to use. It describes Rappture, the Rapid APPlication infrastrucTURE, a...

11. Tutorial 3: Materials Simulation by First-Principles Density Functional Theory

    out of 5 stars 

    14 Sep 2010 | | Contributor(s):: Umesh V. Waghmare

    This two-part lecture will provide an introduction to first-principles density functional theory based methods for simulation of materials, with a focus on determination of interatomic force constants and vibrational spectra of nano- structures and extended periodic materials.

12. Tutorial 4: Far-From-Equilibrium Quantum Transport

    out of 5 stars 

    29 Mar 2011 | | Contributor(s):: Gerhard Klimeck

    These lectures focus on the application of the theories using the nanoelectronic modeling tools NEMO 1- D, NEMO 3-D, and OMEN to realistically extended devices. Topics to be covered are realistic resonant tunneling diodes, quantum dots, nanowires, and Ultra-Thin-Body Transistors.