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Tags: nanoelectronics


Progress in technology has brought microelectronics to the nanoscale, but nanoelectronics is not yet a well-defined engineering discipline with a coherent, experimentally verified, theoretical framework. The NCN has a vision for a new, 'bottom-up' approach to electronics, which involves: understanding electronic conduction at the atomistic level; formulating new simulation techniques; developing a new generation of software tools; and bringing this new understanding and perspective into the classroom. We address problems in atomistic phenomena, quantum transport, percolative transport in inhomogeneous media, reliability, and the connection of nanoelectronics to new problems such as biology, medicine, and energy. We work closely with experimentalists to understand nanoscale phenomena and to explore new device concepts. In the course of this work, we produce open source software tools and educational resources that we share with the community through the nanoHUB.

This page is a starting point for nanoHUB users interested in nanoelectronics. It lists key resources developed by the NCN Nanoelectronics team. The nanoHUB contains many more resources for nanoelectronics, and they can be located with the nanoHUB search function. To find all nanoelectronics resources, search for 'nanoelectronics.' To find those contributed by the NCN nanoelectronics team, search for 'NCNnanoelectronics.' More information on Nanoelectronics can be found here.

Resources (141-160 of 1754)

  1. Uniform Methodology of Benchmarking Beyond-CMOS Devices

    31 Oct 2012 | Online Presentations | Contributor(s): Dmitri Nikonov

    Multiple logic devices are presently under study within the Nanoelectronic Research Initiative (NRI) to carry the development of integrated circuits beyond the CMOS roadmap. Structure and...

  2. Energies and Lifetimes with Complex-Scaling

    02 Apr 2012 | Tools | Contributor(s): Daniel Lee Whitenack, Adam Wasserman

    Calculate the resonance energies and lifetimes of a user-defined potential with a uniform complex-scaling transformation.

  3. Notes on the Solution of the Poisson-Boltzmann Equation for MOS Capacitors and MOSFETs, 2nd Edition

    24 Oct 2012 | Teaching Materials | Contributor(s): Mark Lundstrom, Xingshu Sun

    These notes are intended to complement the discussion on pp. 63 – 68 in Fundamentals of Modern VLSI Devices by Yuan Taur and Tak H. Ning [1]. (Another good reference is Semiconductor Device...

  4. A CNTFET-Based Nanowired Induction Two-Way Transducers

    05 Sep 2012 | Papers | Contributor(s): Rostyslav Sklyar

    A complex of the induction magnetic field two-way nanotransducers of the different physical values for both the external and implantable interfaces in a wide range of arrays are summarized....

  5. Graphene Raman Imaging and Spectroscopy Processing v1.2

    06 Feb 2012 | Tools | Contributor(s): matias gabriel babenco, Li Tao, Deji Akinwande

    Raman spectroscopy processing for Graphene growth characterization

  6. nanoHUB-U NT Nanoscale Transistors: Scientific Overview

    03 Aug 2012 | Online Presentations | Contributor(s): Mark Lundstrom

    For details see Nanoscale Transistors has been refined and condensed into a five-week online course that develops a unified framework for understanding essentials of...

  7. Ultra-stable nanoparticles of (CdSe)n and their unique properties

    02 Aug 2012 | Online Presentations | Contributor(s): Atsuo Kasuya

    Nanoparticles exhibit unique materials functions not realizable in the bulk solid, leading useful practical applications. Recent progresses in synthesis show possibility of producing them down to...

  8. Passive Filter Circuits

    12 Jul 2012 | Tools | Contributor(s): Rhea Khanna, Ogaga Daniel Odele, Krishna P. C. Madhavan, Aung Kyi San

    Simulation of first and second order Passive Filter circuits.

  9. 2012 NCN@Purdue Summer School: Electronics from the Bottom Up

    20 Jul 2012 | Workshops

    The 2012 Summer School will feature a series of lectures on electron transport in Nanotransistors, combined with lectures and hands-on tutorials using the NEMO5 nanoelectronic modeling software....

  10. NEMO5 Tutorial 4C: Graphene Nanostructures

    20 Jul 2012 | Online Presentations | Contributor(s): Junzhe Geng

  11. NEMO5 Tutorials (2012 Summer School)

    19 Jul 2012 | Courses | Contributor(s): James Fonseca, Tillmann Christoph Kubis, Michael Povolotskyi, Jean Michel D Sellier, Parijat Sengupta, Junzhe Geng, Mehdi Salmani Jelodar, Seung Hyun Park, Gerhard Klimeck

  12. All-Spin Logic Devices

    19 Jul 2012 | Online Presentations | Contributor(s): Behtash Behinaein

    We propose a spintronic device that uses spin at every stage of its operation: input and output information are represented by the magnetization of nanomagnets which communicate...

  13. Nanoscale Transistors: Scientific Overview

    19 Jul 2012 | Online Presentations | Contributor(s): Mark Lundstrom

  14. Nanoscale Transistors Lecture 1: The Most Important Invention of the 20th Century?

    19 Jul 2012 | Online Presentations | Contributor(s): Mark Lundstrom

  15. Nanoscale Transistors Lecture 2: IV Characteristics - traditional approach

    19 Jul 2012 | Online Presentations | Contributor(s): Mark Lundstrom

  16. Nanoscale Transistors Lecture 3: Controlling Current by Modulating a Barrier

    19 Jul 2012 | Online Presentations | Contributor(s): Mark Lundstrom

  17. Nanoscale Transistors Lecture 4: MOS Electrostatics

    19 Jul 2012 | Online Presentations | Contributor(s): Mark Lundstrom

  18. Nanoscale Transistors Lecture 5: Transport - ballistic, diffusive, non-local, and quantum

    19 Jul 2012 | Online Presentations | Contributor(s): Mark Lundstrom

  19. Nanoscale Transistors Lecture 6: Ballistic Model

    19 Jul 2012 | Online Presentations | Contributor(s): Mark Lundstrom

  20. Nanoscale Transistors Lecture 7: Comparison to Experimental Results

    19 Jul 2012 | Online Presentations | Contributor(s): Mark Lundstrom, a resource for nanoscience and nanotechnology, is supported by the National Science Foundation and other funding agencies. Any opinions, findings, and conclusions or recommendations expressed in this material are those of the author(s) and do not necessarily reflect the views of the National Science Foundation.