Support

Support Options

Submit a Support Ticket

 

Tags: nanowires

Description

A nanowire is a nanostructure, with the diameter of the order of a nanometer. Alternatively, nanowires can be defined as structures that have a thickness or diameter constrained to tens of nanometers or less and an unconstrained length. At these scales, quantum mechanical effects are important.

Learn more about quantum dots from the many resources on this site, listed below. More information on Nanowires can be found here.

All Categories (1-20 of 193)

  1. PAMELA (Pseudospectral Analysis Method with Exchange & Local Approximations)

    29 May 2014 | Downloads | Contributor(s): Bryan M. Wong

    PAMELA (Pseudospectral Analysis Method with Exchange & Local Approximations): calculates electronic energies, densities, wavefunctions, and band-bending diagrams for core-shell nanowires within a...

    http://nanohub.org/resources/21032

  2. Matlab fit of back to back schottky diodes

    Closed | Responses: 0

    Hi everybody,

    I am trying to fit I(V) curves for semiconducting nanowires contacted between two metallic electrodes.

    My main reference to do this is the following: http://nanohub.org/answers/question/1373

  3. Efficiency Enhancement for Nanoelectronic Transport Simulations

    02 Feb 2014 | Papers | Contributor(s): Jun Huang

    PhD thesis of Jun Huang Continual technology innovations make it possible to fabricate electronic devices on the order of 10nm. In this nanoscale regime, quantum physics becomes critically...

    http://nanohub.org/resources/20248

  4. JunSik Yoon

    http://nanohub.org/members/85695

  5. NGO KHOA QUANG

    http://nanohub.org/members/84038

  6. Quantum and Atomistic Effects in Nanoelectronic Transport Devices

    28 Jun 2013 | Papers | Contributor(s): Neophytos Neophytou

    As devices scale towards atomistic sizes, researches in silicon electronic device technology are investigating alternative structures and materials. As predicted by the International Roadmap for...

    http://nanohub.org/resources/18705

  7. Device Physics and Simulation of Silicon Nanowire Transistors

    28 Jun 2013 | Papers | Contributor(s): Jing Wang

    As the conventional silicon metal-oxide-semiconductor field-effect transistor (MOSFET) approaches its scaling limits, many novel device structures are being extensively explored. Among them, the...

    http://nanohub.org/resources/18740

  8. Landauer Approach to Thermoelectrics

    23 Jun 2013 | Papers | Contributor(s): Changwook Jeong

    Many efforts have been made to search for materials that maximize the thermoelectric (TE) figure of merit, ZT, but for decades, the improvement has been limited because of the interdependent...

    http://nanohub.org/resources/18681

  9. [Illinois] CNST 2012: III-V Semiconductor Nanowire Arraybased Transistors

    02 Jun 2013 | Online Presentations | Contributor(s): Xiuling Li

    http://nanohub.org/resources/14040

  10. [Illinois] Bio-sensing Summer Series 2010: Biomimetic Cilia Sensor Arrays Using Electrochemically Synthesized Magnetic Nanowires

    07 Feb 2013 | Online Presentations | Contributor(s): Bethanie J. Hills Stadler

    _____________________________________________________________________________________________________________________

    http://nanohub.org/resources/16744

  11. [Illinois] BioNanotechnology Seminar Series Fall 2012: Label-Free Electronic Detection of Cancer Biomarkers Using Silicon Nanowire Arrays

    18 Dec 2012 | Online Presentations | Contributor(s): Brian Dorvel

    Improving the performance and lowering the analyte detection limits of optical and electronic biosensors is essential for advancing wide ranging applications in diagnostics and drug discovery. One...

    http://nanohub.org/resources/16100

  12. [Illinois] Nano EP Series: Thermoelectrics of Roughened Silicon Nanowire Arrays

    12 Dec 2012 | Online Presentations | Contributor(s): Jyothi Sadhu

    "Thermoelectrics of Roughened Silicon Nanowire Arrays" The possibility of using silicon as a thermoelectric material for waste heat recovery is technologically significant due to silicon's...

    http://nanohub.org/resources/16093

  13. du wen na

    http://nanohub.org/members/73625

  14. [Illinois] Nano EP Seminar Series: Thin-Film Nanocalorimetry of Lamellar Silver Alkanethiolate Crystals

    26 Nov 2012 | Online Presentations | Contributor(s): Lito de la Rama

    "Thin-Film Nanocalorimetry of Lamellar Silver Alkanethiolate Crystals" Materials exhibit unique thermodynamic properties at the nanoscale.The study of size-dependent phenomena is critical in our...

    http://nanohub.org/resources/16000

  15. prativendra singh

    http://nanohub.org/members/70501

  16. 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....

    http://nanohub.org/resources/15135

  17. Wei Jie Lu

    Graduated from Nanyang Technological University, Singapore with 2nd Division (Upper Class) Bachelor Degree from Electrical and Electronics Engineering in 2008.Admitted into Direct PhD research...

    http://nanohub.org/members/69203

  18. Jos Haverkort

    I am a Lecturer in Physics with interest in nanowire solar cells

    http://nanohub.org/members/69120

  19. Kevin Grossklaus

    I am a graduate research assistant at the University of Michigan- Ann Arbor, working in the Millunchick group. My research exams ion irradiation effects on III-V semiconductor film growth, ion...

    http://nanohub.org/members/60848

  20. Illinois ECE598XL Semiconductor Nanotechnology

    27 Jun 2011 | Courses | Contributor(s): Xiuling Li

    Lectures and discussion on current topics of semiconductor nanotechnology building block formation, characterization and device applications. Group IV, III-V and II-VI semiconductor nanowires,...

    http://nanohub.org/resources/11399

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.