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In 1959, physicist Richard Feynman presented an
amazing talk entitled There's Plenty of Room at the Bottom, in which he proposed making very small circuits out of molecules. More than forty years later, people are starting to realize his vision. Thanks to Scanning Tunneling Microscope (STM) probes and "self-assembly" fabrication techniques, it is now possible to connect electrodes to a molecule and measure its conductance. In 2004, Mark Hersam et al. reported the first experimental measurement of a molecular resonant tunneling device on silicon. This new field of Molecular
Electronics may someday provide the means to miniaturize circuits beyond the limits of silicon, keeping Moore's Law in force for many years to come.
Learn more about molecular electronics from the resources on this site, listed below. More information on Molecular electronics can be found here.
ODAY ARKAN AL-OWAEDI
NCN at Northwestern Tools
NCN@Northwestern Tool Support
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How to visualize my structure ?
Closed | Responses: 1
I can make molecular simulations on your tool but I cannot visualize my structure after the geometry optimization ?
Thanks in advance,
DrMohan L Verma
Zain. Y. Mijbil
Coordinate file of xylyl molecule
08 Feb 2013 | | Contributor(s):: Rahul Jain, vinay krishna polnati (editor), Venkat Rayudu
we are designing molecular device using xylyl molecule.so here we would like to upload the coordinate file of this molecule so that it can be simulated.
Is there a good resource for learning about DNA and its lab tricks for an electrical engineer?
Closed | Responses: 0
I am a Masters student with a background in materials science and electrical engineering (currently Electrical Engineering) and I have an idea for a DNA-based transistor but I want to know how...
Yuri A Kruglyak
Chemically Enhanced Carbon-Based Nanomaterials and Devices
09 Nov 2010 | | Contributor(s):: Mark Hersam
Carbon-based nanomaterials have attracted significant attention due to their potential to enable and/or improve applications such as transistors, transparent conductors, solar cells, batteries, and biosensors. This talk will delineate chemical strategies for enhancing the electronic and optical...
ABINIT: First-Time User Guide
09 Jun 2009 | | Contributor(s):: Benjamin P Haley
This first-time user guide provides an introduction to using ABINIT on nanoHUB. We include a very brief summary of Density Functional Theory along with a tour of the Rappture interface. We discuss the default simulation (what happens if you don't change any inputs, and just hit "simulate") as...
MCW07 Exploring Trends in Conductance for Well-Defined Single Molecule Circuits
out of 5 stars
04 Apr 2009 | | Contributor(s):: Mark S Hybertsen
In our recent research, we have been able to measure and characterize the impact of intrinsic molecular properties on the conductance of single molecule circuits formed with amine-gold linkages. In this talk, I will review the experiments and the physical picture of the junction based on the...
Northwestern University Initiative for Teaching Nanoscience
12 Aug 2008 | | Contributor(s):: Baudilio Tejerina
This package allows users to study and analyze of molecular properties using various electronic structure methods.