
MSE 498 Lesson 15: MD
17 Mar 2015   Contributor(s):: Andrew Ferguson
This new course will give students handson experience with popular computational materials science and engineering software through a series of projects in: electronic structure calculation (e.g., VASP), molecular simulation (e.g., GROMACS), phase diagram modeling (e.g., ThermoCalc), finite...

MSE 498 Lesson 16: FEM
17 Mar 2015   Contributor(s):: Andrew Ferguson
This new course will give students handson experience with popular computational materials science and engineering software through a series of projects in: electronic structure calculation (e.g., VASP), molecular simulation (e.g., GROMACS), phase diagram modeling (e.g., ThermoCalc), finite...

MSE 498 Lesson 17: FEM
17 Mar 2015   Contributor(s):: Andrew Ferguson
This new course will give students handson experience with popular computational materials science and engineering software through a series of projects in: electronic structure calculation (e.g., VASP), molecular simulation (e.g., GROMACS), phase diagram modeling (e.g., ThermoCalc), finite...

MSE 498 Lesson 18: CALPHAD
17 Mar 2015   Contributor(s):: Andrew Ferguson
This new course will give students handson experience with popular computational materials science and engineering software through a series of projects in: electronic structure calculation (e.g., VASP), molecular simulation (e.g., GROMACS), phase diagram modeling (e.g., ThermoCalc), finite...

MSE 498 Lesson 19: CALPHAD
17 Mar 2015   Contributor(s):: Andrew Ferguson
This new course will give students handson experience with popular computational materials science and engineering software through a series of projects in: electronic structure calculation (e.g., VASP), molecular simulation (e.g., GROMACS), phase diagram modeling (e.g., ThermoCalc), finite...

MSE 498 Lesson 1: CMSE
17 Mar 2015   Contributor(s):: Andrew Ferguson
This new course will give students handson experience with popular computational materials science and engineering software through a series of projects in: electronic structure calculation (e.g., VASP), molecular simulation (e.g., GROMACS), phase diagram modeling (e.g., ThermoCalc), finite...

MSE 498 Lesson 2: bash
17 Mar 2015   Contributor(s):: Andrew Ferguson
This new course will give students handson experience with popular computational materials science and engineering software through a series of projects in: electronic structure calculation (e.g., VASP), molecular simulation (e.g., GROMACS), phase diagram modeling (e.g., ThermoCalc), finite...

MSE 498 Lesson 3: bash
17 Mar 2015   Contributor(s):: Andrew Ferguson
This new course will give students handson experience with popular computational materials science and engineering software through a series of projects in: electronic structure calculation (e.g., VASP), molecular simulation (e.g., GROMACS), phase diagram modeling (e.g., ThermoCalc), finite...

[Illinois] Modeling and Characterization of Anisotropic Objects by Volume Integral Equation Methods
10 Mar 2015   Contributor(s):: Lin Sun

[Illinois] Atomic Engineering of IIIV Semiconductor for Quantum Devices, from Deep UV (200 nm) to THZ (300 microns)
03 Mar 2015   Contributor(s):: Manijeh Razeghi
Nature offers us different kinds of atoms. But it takes human intelligence to put different atoms together in an elegant way in order to realize manmade structures that is lacking in nature. This is especially true in IIIV semiconductor material systems. Guided by highly accurate atomic band...

[Illinois] Signal Integrity and Power Integrity Based on Computational Electromagnetics
20 Jan 2015   Contributor(s):: LiJun Jiang

[Illinois] Modeling and Characterization of Anisotropic Objects by Volume Integral Equation Methods
20 Jan 2015   Contributor(s):: Lin Sun

[Illinois] Genomics with Semiconductor Nanotechnology
29 Dec 2014   Contributor(s):: JeanPierre Leburton
The singleatom thickness of monolayer graphene makes it an ideal candidate for DNA sequencing as it can scan molecules passing through a nanopore at high resolution. Additionally, unlike most insulating membranes, graphene is electrically active, and this property can be exploited to control...

[Illinois] Spectral Method for Linear and Nonlinear Phenomena in Nanophotonics
29 Dec 2014   Contributor(s):: Qing Huo Liu

[Illinois] Surface Plasmons
29 Dec 2014   Contributor(s):: Mahta Moghaddam

[Illinois] Accurate Solutions Of Extremely Large IntegralEquation Problems Involving Complex Metamaterial Structures
29 Dec 2014   Contributor(s):: Levent Gurel

[Illinois] NanoOptics Lab Day 1
11 Nov 2014   Contributor(s):: NanoBio Node, Jeremy Smith, Sarah White
This presentation includes the first day of the NanoOptics labs. It includes information on using the nanoDDSCAT tool on nanohub. This lab walks through using nanoDDSCAT to compute dipoles of objects, and wave length vs scattering. It also walks through using Blender to create your own...

[Illinois] Nanooptics Lab Day 2
11 Nov 2014   Contributor(s):: NanoBio Node, Jeremy Smith, Sarah White
The presentation includes the second day of the NanoOptics Labs. It includes exercises showing how plasmon resonance can be used as sensors for changes in dielectric environment.

[Illinois] SMART (Shrink Manufacturing Advanced Research Tools)
09 Oct 2014   Contributor(s):: Michelle Khine

[Illinois] Extracellular Matrix Remodeling during Cancer Progression and Metastasis
09 Oct 2014   Contributor(s):: Manu Platt