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SEQUAL 2.1 Source Code Download
Downloads | 09 Mar 2005 | Contributor(s):: Michael McLennan
SEQUAL 2.1 is a device simulation program that computes Semiconductor Electrostatics by Quantum Analysis. Given a device, SEQUAL will compute the electron density and the current density using a quantum mechanical, collisionless description of electron propagation. It was designed to be a...
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NanoMOS 2.5 Source Code Download
Downloads | 22 Feb 2005 | Contributor(s):: Zhibin Ren, Sebastien Goasguen
NanoMOS is a 2-D simulator for thin body (less than 5 nm), fully depleted, double-gated n-MOSFETs. A choice of five transport models is available (drift-diffusion, classical ballistic, energy transport, quantum ballistic, and quantum diffusive). The transport models treat quantum effects in the...
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Nanotechnology 501 Lecture Series
Series | 22 Feb 2005 | Contributor(s):: Gerhard Klimeck (editor), Mark Lundstrom (editor), Joseph M. Cychosz (editor)
Welcome to Nanotechnology 501, a series of lectures designed to provide an introduction to nanotechnology. This series is similar to our popular lecture series Nanotechnology 101, but it is directed at the graduate students and professionals.
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Electrical Resistance: An Atomistic View
Online Presentations | 09 Jul 2003 | Contributor(s):: Supriyo Datta
Electrical Resistance: An Atomistic View
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Huckel-IV on the nanoHub
Online Presentations | 09 Jul 2003 | Contributor(s):: Magnus Paulsson, Ferdows Zahid, Supriyo Datta
Huckel-IV on the nanoHub
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Measuring Molecular Conductance: A Review of Experimental Approaches
Online Presentations | 09 Jul 2003 | Contributor(s):: Ron Reifenberger
Measuring Molecular Conductance: A Review of Experimental Approaches
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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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Probing Molecular Conduction with Scanning Probe Microscopy
Online Presentations | 08 Jul 2004 | Contributor(s):: Mark Hersam
This tutorial will provide an overview of scanning probe microscopy (SPM) andits application towards problems in molecular conduction. In an effort to communicatethe power and limitations of these instruments, the tutorial will describe designconsiderations and reveal the detailed construction of...
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Quantum Chemistry Part I
Online Presentations | 08 Jul 2004 | Contributor(s):: Mark Ratner
This tutorial will provide an overview of electronic structure calculations from achemist's perspective. This will include a review of the basic electronic structuretheories.
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Understanding Molecular Conduction
Online Presentations | 08 Jul 2004 | Contributor(s):: Supriyo Datta
It is common to differentiate between two ways of building a nanodevice: a topdown approach where we start from something big and chisel out what we want and abottom-up approach where we start from something small like atoms or molecules andassemble what we want. When it comes to describing...
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Curriculum on Nanotechnology
Courses | 27 Jan 2005
To exploit the opportunities that nanoscience is giving us, engineers will need to learn how to think about materials, devices, circuits, and systems in new ways. The NCN seeks to bring the new understanding emerging from research in nanoscience into the graduate and undergraduate curriculum. The...
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Exponential Challenges, Exponential Rewards - The Future of Moore's Law
Online Presentations | 14 Dec 2004 | Contributor(s):: Shekhar Borkar
Three exponentials have been the foundation of today's electronics, which are often taken for granted—namely transistor density, performance, and energy. Moore's Law captures the impact of these exponentials. Exponentially increasing transistor integration capacity, and...
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Mark Lundstrom
Mark Lundstrom is the Don and Carol Scifres Distinguished Professor of Electrical and Computer Engineering at Purdue University. He was the founding director of the Network for Computational...
https://nanohub.org/members/2862
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NEMO 1-D: The First NEGF-based TCAD Tool and Network for Computational Nanotechnology
Online Presentations | 28 Dec 2004 | Contributor(s):: Gerhard Klimeck
Nanotechnology has received a lot of public attention since U.S. President Clinton announced the U.S.National Nanotechnology Initiative. New approaches to applications in electronics, materials,medicine, biology and a variety of other areas will be developed in this new multi-disciplinary...
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Nanotechnology 101 Lecture Series
Series | Contributor(s):: Joseph M. Cychosz (editor)
Welcome to Nanotechnology 101, a series of lectures designed to provide an undergraduate-level introduction to nanotechnology. In contrast, the Nanotechnology 501 series offers lectures for the graduate-level and professional audiences.
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Electronic Transport in Semiconductors (Introductory Lecture)
Online Presentations | 25 Aug 2004 | Contributor(s):: Mark Lundstrom
Welcome to the ECE 656 Introductory lecture. The objective of the course is to develop a clear, physical understanding of charge carrier transport in bulk semiconductors and in small semiconductor devices.The emphasis is on transport physics and its consequences in a device context. The course...
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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.
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Visualization of CNT FET Electrical Field Lines
Presentation Materials | 15 Aug 2004 | Contributor(s):: Muriel Fort, Sameer Hamdan
With transistors decreasing to nanometric dimensions, limits of current processing technologies are being reached. Many physical obstacles still need to be overcome to replace earlier silicon devices with Carbon NanoTube Field Effect Transistors (CNT FETs).