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  1. Carbon Nanotube Counter

    08 Aug 2018

    Carbon Nanotube Counter (CNT Counter) is a program that can count the density of Carbon Nanotubes in microscope scans. The program supports JPEG and TIFF images from both Scanning Electron Microscopes (SEMs) and Atomic Force Microscopes (AFMs). This program contains both an automatic mode and a...

  2. Take the nanoHUB Carbon Nanotube Dance Challenge!

    23 Jul 2018

    This teaching resource provides background information on Carbon Nanotubes (CNTs), as well as instructions for simulating different chirality CNTs and interpreting the results.

  3. THERMAL CNT

    29 Nov -0001 | Tools

    Compute thermal conductivity of single-walled carbon nano-tubes via NEMD method

  4. CNT Creating Python script

    29 Nov -0001 | Downloads

    It can work through running python script directly on PC without using Internet .Just you download and install NanoTCAD ViDES and then we can simulate CNT and GNR without using nanohub or internet.

  5. Coherent Nonlinear Optical Propagation Processes in Hyperbolic Metamaterials

    29 Nov -0001 | Online Presentations

    Coherence and interference play an important role in classic and quantum physics. Processes to be employed can be significantly enhanced and the unwanted ones suppressed through the deliberately tailored constructive and destructed interference at quantum transitions and at nonlinear optical...

  6. The Role of Dimensionality on Phonon-Limited Charge Transport: from CNTs to Graphene

    29 Nov -0001 | Online Presentations

    IWCE 2015 presentation.

  7. Multi-Scale Modeling of Metal-CNT Interfaces

    29 Nov -0001 | Online Presentations

    IWCE 2015 presentation.  the authors studied the impact of contact materials on cntfet behavior using multiscale modeling and simulation framework. a strong correlation between metal-cnt coupling strength, contact length and contact resistance was found. the atomistic simulation was used to...

  8. A Comparative Study of nanoHUB Tools for the Simulation of Carbon-based FETs

    29 Nov -0001 | Presentation Materials

    This work compares the different tools available in nanoHUB for the electrical simulation of carbon- based field-effect transistors made up of either carbon nanotubes (CNTs) or graphene. ...

  9. A Comparative Study of nanoHUB Tools for the Simulation of Carbon-based FETs

    29 Nov -0001 | Presentation Materials

    This work compares the different tools available in nanoHUB for the electrical simulation of carbon- based field-effect transistors made up of either carbon nanotubes (CNTs) or graphene. ...

  10. Variation-Aware Nanosystem Design Kit (NDK)

    29 Nov -0001 | Downloads

    Carbon nanotube field-effect transistors (CNFETs) are promising candidates for building energy-efficient digital systems at highly scaled technology nodes. However, carbon nanotubes (CNTs) are inherently subject to variations that reduce circuit yield, increase susceptibility to noise, and...

  11. nanoHUB-U Scientific Overview's

    29 Nov -0001 | Series

    The nanoHUB-U initiative seeks to bring the new insights and approaches being developed in nanoscience into the traditional fields of engineering and applied science, and to do this in a way that is broadly accessible to students without a long string of prerequisites.For more information on the...

  12. nanoHUB-U TE Thermal Energy at the Nanoscale: Scientific Overview

    29 Nov -0001 | Online Presentations

  13. The Road Ahead for Carbon Nanotube Transistors

    29 Nov -0001 | Online Presentations

    In this talk, recent advancements in the nanotube transistor field will be reviewed, showing why CNTFETs are worth considering now more than ever. Then, the material- and device-related challenges to realizing a nanotube-driven digital technology will be covered.

  14. Inelastic Transport in Carbon Nanotube Electronic and Optoelectronic Devices

    29 Nov -0001 | Papers

    Discovered in the early 1990's, carbon nanotubes (CNTs) are found to have exceptional physical characteristics compared to conventional semiconductor materials, with much potential for devices surpassing the performance of present-day electronics. Semiconducting CNTs have large carrier...

  15. Quantum and Atomistic Effects in Nanoelectronic Transport Devices

    29 Nov -0001 | Papers

    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 Semiconductors, (ITRS), structures will evolve from planar devices into devices that include 3D...

  16. Carbon Nanotube Electronics: Modeling, Physics, and Applications

    29 Nov -0001 | Papers

    In recent years, significant progress in understanding the physics of carbon nanotube electronic devices and in identifying potential applications has occurred. In a nanotube, low bias transport can be nearly ballistic across distances of several hundred nanometers. Deposition of high-k gate...

  17. Electron Phonon Interaction in Carbon Nanotube Devices

    29 Nov -0001 | Papers

    With the end of silicon technology scaling in sight, there has been a lot of interest in alternate novel channel materials and device geometry. Carbon nanotubes, the ultimate one-dimensional (1D) wire, is one such possibility. Since the report of the first CNT transistors, lots has been learned...

  18. 2008.02.07-Dresselhaus-320x240-wind.zip

    29 Nov -0001 | Downloads

    a nice test resource

  19. Buckypaper

    29 Nov -0001 | Presentation Materials

    the presentation gives a basic idea about the buckypaper and give breif details about the synthesis properties and applications of buckypaper

  20. Random Forest Model Objects for Pulmonary Toxicity Risk Assessment

    29 Nov -0001 | Downloads

    This download contains MATLAB treebagger or Random Forest (RF) model objects created via meta-analysis of nanoparticle rodent pulmonary toxicity experiments. The ReadMe.txt file contains object descriptions including output definitions, input parameter descriptions, and applicable limits.