"Resources for Nano-Link 2018 Annual Meeting" 8 posts Sort by created date Sort by defined ordering View as a grid View as a list
Lecture three of "Nanotechnology Fabrication" includes slides on was to synthesize CNTs - carbon nanotubes.
0 likes 0 comments 0 reposts
Tanya Faltens onto Resources for Nano-Link 2018 Annual Meeting @ 8:44 am on 27 Apr 2018
Tutorial series that includes a pre- and post-quiz and slides that explain CNT electronics, including geometries, band diagram, applications of CNTs. You must open the supporting documents tab for this resource
Tanya Faltens onto Resources for Nano-Link 2018 Annual Meeting @ 8:46 am on 27 Apr 2018
Simulate CNTs and their band diagrams. Be sure to go to the supporting documents to see the first time user's guide.
Tanya Faltens onto Resources for Nano-Link 2018 Annual Meeting @ 8:49 am on 27 Apr 2018
This worksheet has students describe the geometries and conductivity type of several different carbon nanotubes of differing chirality. CNT Bands can be used to simulate the structures and check the results.
1 likes 0 comments 2 reposts
Tanya Faltens onto Resources for Nano-Link 2018 Annual Meeting @ 8:54 am on 27 Apr 2018
Instructions for cutting the crystal structure along different planes.
Tanya Faltens onto Resources for Nano-Link 2018 Annual Meeting @ 11:05 am on 27 Apr 2018
Introductory video provides a nice overview of the size and scale of a cell with respect to its environment and its components, and questions we may ask if a cell were to be used as a factory.
Course Description:
A self-paced course on the design principles underlying mechanisms of cellular and biomolecular functions such as cell architecture, energy storage and conversion, sensing and signaling, communication, time keeping, molecular synthesis, memory, and motility.
Taught by Jenna Rickus, Professor of Biological Engineering and Biomedical Engineering at Purdue University
Tanya Faltens onto Resources for Nano-Link 2018 Annual Meeting @ 11:58 am on 27 Apr 2018
The modern smartphone is enabled by a billion-plus nanotransistors, each having an active region that is barely a few hundred atoms long. Interestingly the same amazing technology has also led to a deeper understanding of the nature of current flow on an atomic scale and my aim is to make these lessons from nanoelectronics accessible to anyone in any branch of science or engineering.
Taught by:
Supriyo Datta, Professor of Electrical and Computer Engineering, Purdue University
Tanya Faltens onto Resources for Nano-Link 2018 Annual Meeting @ 12:02 pm on 27 Apr 2018
Mark Lundstrom, Professor of Electrical and Computer Engineering, Purdue University
Tanya Faltens onto Resources for Nano-Link 2018 Annual Meeting @ 12:04 pm on 27 Apr 2018