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A Comparative Study of nanoHUB Tools for the Simulation of Carbon-based FETs
Presentation Materials | 03 Sep 2015 | Contributor(s):: Jose M. de la Rosa
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. ...
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NEGF theory of quantum photovoltaic devices
Presentation Materials | 22 Sep 2011 | Contributor(s):: Urs Aeberhard
Many high-efficiency photovoltaics concepts require an advanced control and manipulation of the optoelectronic properties of the active device structure, leading to a prominent role of low dimensional absorbers such as quantum wells, wires and dots in the implementation of these concepts....
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Illinois ECE598XL Semiconductor Nanotechnology - 3 - Quantum Dots: Formation
Presentation Materials | 27 Jun 2011 | Contributor(s):: Xiuling Li
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Illinois ECE598XL Semiconductor Nanotechnology - 2 - Nanostructure Epitaxial Growth Techniques
Presentation Materials | 27 Jun 2011 | Contributor(s):: Xiuling Li
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Illinois ECE598XL Semiconductor Nanotechnology - 1 - Introduction to Nanotechnology
Presentation Materials | 27 Jun 2011 | Contributor(s):: Xiuling Li
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Quantitative Modeling and Simulation of Quantum Dots
Presentation Materials | 18 Apr 2011 | Contributor(s):: Muhammad Usman
Quantum dots grown by self-assembly process are typically constructed by 50,000 to 5,000,000 structural atoms which confine a small, countable number of extra electrons or holes in a space that is comparable in size to the electron wavelength. Under such conditions quantum dots can be interpreted...
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Nanoelectronic Devices, With an Introduction to Spintronics (Lecture Notes)
Presentation Materials | 01 Nov 2010 | Contributor(s):: Supriyo Datta
Collective slides for the Datta lectures.
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Thermoelectric effects in semiconductor nanostructures: Role of electron and lattice properties
Presentation Materials | 06 Oct 2010 | Contributor(s):: Abhijeet Paul, Gerhard Klimeck
This presentation covers some aspects of present development in the field of thermoelectricity and focuses particularly on the silicon nanowires as potential thermoelectric materials. The electronic and phonon dispersions are calculated and used for the calculation of thermoelectric properties in...
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Research Within Vasileska Group
Presentation Materials | 29 Jun 2010 | Contributor(s):: Dragica Vasileska
This presentation outlines recent progress in reseach within Vasileska group in the area of random telegraph noise and thermal modeling, and modeling of GaN HEMTs.
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NCN Student Meet Presentations
Presentation Materials | 11 Feb 2010 | Contributor(s):: Abhijeet Paul, Ganesh Krishna Hegde, Ankit Jain, Fengyuan (Thomas) Li, Shuaib Salamat, Xufeng Wang, Insoo Woo, Robert Wortman, Min Xu, Ya Zhou
These are the presentations given by the students during the first 2010 event for NCN at Purdue. Students showcased a wide genre of research they are doing under the NCN. All the talks have been uploaded here for easy access.
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Comparisons of macrospin and OOMMF simulations
Presentation Materials | 26 Jan 2010 | Contributor(s):: Dmitri Nikonov, George Bourianoff
Plots of switchign time of nanomagnets by spin torque calculated by macrospin model and micromagnetic tool OOMMF, compared side-by-side. D. E. Nikonov, G. I. Bourianoff, G. Rowlands, I. N. Krivorotov Should be read and cited in conjunction with http://arxiv.org/abs/1001.4578
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Low Bias Transport in Graphene: An Introduction (lecture notes)
Presentation Materials | 22 Sep 2009 | Contributor(s):: Mark Lundstrom, tony low, Dionisis Berdebes
These notes complement a lecture with the same title presented by Mark Lundstrom and Dionisis Berdebes, at the NCN@Purdue Summer School, July 20-24, 2009.
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Comparison of PCPBT Lab and Periodic Potential Lab
Presentation Materials | 10 Aug 2009 | Contributor(s):: Abhijeet Paul, Samarth Agarwal, Gerhard Klimeck, Junzhe Geng
This small presentation provides information about the comparison performed for quantum wells made of GaAs and InAs in two different tools. This has been done to benchmark the results from completely two different sets of tools and validate the obtained results. In this presentation we provide...
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Misinterpreting X-Ray Diffraction Results
Presentation Materials | 03 Dec 2008 | Contributor(s):: Thomas Key
Common mistakes and misinterpretations associated with the collection and interpretation of x-ray diffraction data.
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Electronics at Nano scale
Presentation Materials | 06 Apr 2007 | Contributor(s):: Rakesh Kumar gupta
Current research on nanoelectronics is extremely diverse. Exiting technology of optical lithography used for the fabrication of electronics components,devices and systms already reached to their extreme limits. The devises with minimum feature dimensions less than 50nm and below this are almost...
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Quantum Transport: Atom to Transistor - Questions & Answers
Presentation Materials | 23 Mar 2005 | Contributor(s):: Supriyo Datta
Welcome to the Question and Answer page for the online class Quantum Transport: Atom to Transistor.
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Simulating Electronic Conduction Through the NanoHub
Presentation Materials | 09 Jul 2003 | Contributor(s):: Sebastien Goasguen
Simulating Electronic Conduction Through the nanoHUB
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Process Variation: An Evalution of Carbon Nanotube Transistor Field Effect Transistors
Presentation Materials | 16 Aug 2004 | Contributor(s):: Sergio Urban, Alvin Lacson, Louis Bonhami
Process variation is the observed deviation of device parameters in mass production processes. As the critical dimensions of today's MOSFET's are continously decreasing, process variation is becoming an increased problem.
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Modification of Si(111) Surfaces using Self - Assembled Monolayers (SAMs) for Electrochemical and AF
Presentation Materials | 16 Aug 2004 | Contributor(s):: Rosangelly Flores Pérez
Recent researchers in the electrical engineering field are using self-assembled monolayers techniques with aryldiazonium salts solutions to build nanoelectronic devices. This innovation can explain the molecular conductivity and the chemical covalent bonds between π- conjugated orbitals of the...
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Hydrodynamic Separation of Micron-sized Particles through Magnetization
Presentation Materials | 16 Aug 2004 | Contributor(s):: Michael Benko
Many assays and lab-on-a-chip projects require the use of uniform magnetic particles. Creating magnetic particles of uniform size and magnetization is a difficult task. The next best alternative is to make a distribution of particles and separate them.