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Tags: devices

Description

On June 30, 1948, AT&T Bell Labs unveiled the transitor to the world, creating a spark of explosive economic growth that would lead into the Information Age. William Shockley led a team of researchers, including Walter Brattain and John Bardeen, who invented the device. Like the existing triode vacuum tube device, the transistor could amplify signals and switch currents on and off, but the transistor was smaller, cheaper, and more efficient. Moreover, it could be integrated with millions of other transistors onto a single chip, creating the integrated circuit at the heart of modern computers.

Today, most transistors are being manufactured with a minimum feature size of 60-90nm--roughly 200-300 atoms. As the push continues to make devices even smaller, researchers must account for quantum mechanical effects in the device behavior. With fewer and fewer atoms, the positions of impurities and other irregularities begin to matter, and device reliability becomes an issue. So rather than shrink existing devices, many researchers are working on entirely new devices, based on carbon nanotubes, spintronics, molecular conduction, and other nanotechnologies.

Learn more about transistors from the many resources on this site, listed below. Use our simulation tools to simulate performance characteristics for your own devices.

Resources (121-140 of 299)

  1. Illinois ECE 440 Solid State Electronic Devices, Lecture 10-11: Optical Absorption and Direct Recombination

    30 Sep 2009 | Online Presentations | Contributor(s): Eric Pop

    University of Illinois at Urbana-Champaign ECE 440: Solid State Electronic Devices

    http://nanohub.org/resources/7483

  2. Illinois ECE 440 Solid State Electronic Devices, Lectures 8 and 9: Drift Mobility

    02 Jan 2009 | Online Presentations | Contributor(s): Eric Pop

    Carrier Mobility and Drift ECE 440: Lectures 8-9 Carrier Mobility and Drift Let’s recap the 5-6 major concepts so far: Memorize a few things, but recognize many. (why? semiconductors...

    http://nanohub.org/resources/6094

  3. Lecture 5: NEGF Simulation of Graphene Nanodevices

    23 Sep 2009 | Online Presentations | Contributor(s): Supriyo Datta

    Network for Computational Nanotechnology, Intel Foundation

    http://nanohub.org/resources/7422

  4. 2009 NCN@Purdue Summer School: Electronics from the Bottom Up

    22 Sep 2009 | Workshops | Contributor(s): Supriyo Datta, Mark Lundstrom, Muhammad A. Alam, Joerg Appenzeller

    The school will consist of two lectures in the morning on the Nanostructured Electronic Devices: Percolation and Reliability and an afternoon lecture on Graphene Physics and Devices. A hands on...

    http://nanohub.org/resources/7113

  5. Colloquium on Graphene Physics and Devices

    22 Sep 2009 | Courses | Contributor(s): Joerg Appenzeller, Supriyo Datta, Mark Lundstrom

    This short course introduces students to graphene as a fascinating research topic as well as to develop their skill in problem solving using the tools and techniques of electronics from the bottom up.

    http://nanohub.org/resources/7180

  6. Nanostructured Electronic Devices: Percolation and Reliability

    17 Sep 2009 | Courses | Contributor(s): Muhammad A. Alam

    In this series of lectures introduces a simple theoretical framework for treating randomness and variability in emerging nanostructured electronic devices for wide ranging applications – all...

    http://nanohub.org/resources/7168

  7. Lecture 1: Percolation and Reliability of Electronic Devices

    17 Sep 2009 | Online Presentations | Contributor(s): Muhammad A. Alam

    Network for Computational Nanotechnology, Intel Foundation

    http://nanohub.org/resources/7169

  8. Self-Heating Effects in Nano-Scale Devices. What do we know so far ...

    10 Aug 2009 | Teaching Materials | Contributor(s): Dragica Vasileska, Stephen M. Goodnick

    This presentation contains the research findings related to self-heating effects in nano-scale devices in silicon on insulator devices obtained at Arizona State University. Different device...

    http://nanohub.org/resources/7208

  9. From Semi-Classical to Quantum Transport Modeling: Particle-Based Device Simulations

    10 Aug 2009 | Teaching Materials | Contributor(s): Dragica Vasileska

    This set of powerpoint slides series provides insight on what are the tools available for modeling devices that behave either classically or quantum-mechanically. An in-depth description is...

    http://nanohub.org/resources/7214

  10. From Semi-Classical to Quantum Transport Modeling: Quantum Corrections to Semiclassical Approaches

    10 Aug 2009 | Teaching Materials | Contributor(s): Dragica Vasileska

    This set of powerpoint slides series provides insight on what are the tools available for modeling devices that behave either classically or quantum-mechanically. An in-depth description is...

    http://nanohub.org/resources/7216

  11. From Semi-Classical to Quantum Transport Modeling: Quantum Transport - Recursive Green's function method, CBR approach and Atomistic

    10 Aug 2009 | Teaching Materials | Contributor(s): Dragica Vasileska

    This set of powerpoint slides series provides insight on what are the tools available for modeling devices that behave either classically or quantum-mechanically. An in-depth description is...

    http://nanohub.org/resources/7220

  12. From Semi-Classical to Quantum Transport Modeling

    10 Aug 2009 | Series | Contributor(s): Dragica Vasileska

    This set of powerpoint slides series provides insight on what are the tools available for modeling devices that behave either classically or quantum-mechanically. An in-depth description is...

    http://nanohub.org/resources/7221

  13. Tutorial for PADRE Based Simulation Tools

    10 Aug 2009 | Teaching Materials | Contributor(s): Dragica Vasileska, Gerhard Klimeck

    This tutorial is intended for first time and medium level users of PADRE-based simulation modules installed on the nanohub. It gives clear overview on the capabilities of each tool with emphasis...

    http://nanohub.org/resources/7223

  14. Illinois ECE 440 Solid State Electronic Devices, Lecture 5: Intrinsic Material, Doping, Carrier Concentrations

    03 Aug 2009 | Online Presentations | Contributor(s): Eric Pop, Omar Sobh

    University of Illinois at Urbana-Champaign ECE 440: Solid State Electronic Devices

    http://nanohub.org/resources/7197

  15. Illinois ECE 440 Solid State Electronic Devices, Lecture 5, Part 2 : Doping, Carrier Concentrations

    03 Aug 2009 | Online Presentations | Contributor(s): Eric Pop, Omar Sobh

    University of Illinois at Urbana-Champaign ECE 440: Solid State Electronic Devices

    http://nanohub.org/resources/7199

  16. MOSCAP: Theoretical Exercise - High Frequency CV Curves

    07 Jul 2009 | Teaching Materials | Contributor(s): Dragica Vasileska

    One is required to sketch the high frequency CV curves for different MOS Capacitors configurations.

    http://nanohub.org/resources/7039

  17. BJT Lab: h-Parameters Calculation Exercise

    07 Jul 2009 | Teaching Materials | Contributor(s): Dragica Vasileska, Gerhard Klimeck

    In this exercise students are required to obtain the appropriate input and output parameters to extract the small signal h-parameters in common-base configuration. Afterwards they need to derive...

    http://nanohub.org/resources/7037

  18. MOSFet Demonstration: MOSFET Device Simulation and Analysis

    11 Jun 2009 | Animations | Contributor(s): Gerhard Klimeck, Benjamin P Haley

    This video shows the simulation and analysis of a MOSFET device using the MOSFet tool. Several powerful analytic features of this tool are demonstrated.

    http://nanohub.org/resources/6830

  19. PN Junction Lab Demonstration: Asymmetric PN Junctions

    11 Jun 2009 | Animations | Contributor(s): Gerhard Klimeck, Benjamin P Haley

    This video shows the simulation and analysis of a several PN junctions using PN Junction Lab, which is powered by PADRE. Several powerful analytic features of this tool are demonstrated.

    http://nanohub.org/resources/6842

  20. OMEN Nanowire Demonstration: Nanowire Simulation and Analysis

    11 Jun 2009 | Animations | Contributor(s): Gerhard Klimeck, Benjamin P Haley

    This video shows the simulation and analysis of a nanowire using OMEN Nanowire. Several powerful analytic features of this tool are demonstrated.

    http://nanohub.org/resources/6833

nanoHUB.org, 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.