27 Sep 2009 | Tools | Contributor(s): Alexander S McLeod, Peter Doak, Sahar Sharifzadeh, Jeffrey B. Neaton
This is an educational tool that illustrates the calculation of the electronic structure of materials using many-body perturbation theory within the GW approximation
Computational Nanoscience for Energy
15 Sep 2009 | Teaching Materials | Contributor(s): Jeffrey C Grossman, Alexander S McLeod
Materials for energy conversion and storage can be greatly improved by taking advantage of unique effects that occur at the nanoscale. In many cases, these improvements are due to fundamental microscopic mechanisms that can be understood and predicted by cutting-edge simulation methods. This course will provide students with the fundamentals of computational problem-solving techniques that are used to elucidate the atomic-scale behavior of energy conversion and storage nano-materials.
MIT Tools for Energy Conversion and Storage
13 Sep 2009 | Tools | Contributor(s): Jeffrey C Grossman, Joo-Hyoung Lee, Varadharajan Srinivasan, Alexander S McLeod, Lucas Wagner
Atomic-Scale Simulation Tools to Explore Energy Conversion and Storage Materials
Molecular Foundry Photonics Toolkit
13 May 2010 | Tools | Contributor(s): Alexander S McLeod, P. James Schuck, Jeffrey B. Neaton
Simulate realistic 1, 2, or 3-dimension nano-optical systems using the FDTD method.
Nano*High: Nanoscience for High School Students
02 Feb 2010 | Series | Contributor(s): Alexander S McLeod, Jeffrey B. Neaton, Jeffrey C Grossman
The Materials Sciences Division at the University of California's Lawrence Berkeley National Laboratory invites you and your students to Nano*High, a series of free Saturday morning lectures by UC Berkeley professors and LBNL senior scientists conducting research from nanoscience to molecular medicine, and climate change to astrophysics. 2009-2010 will be our seventh year of Nano*High. Last year over 900 students and their teachers attended at least one talk. Nano*High talks are aimed at all ...