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Basic Concepts presents key concepts in nanoelectronics and mesoscopic physics and relates them to the traditional view of electron flow in solids.

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JUNGYUN KWON onto Physics

Instructor: Mark Lundstrom

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JUNGYUN KWON onto Physics

This course was created by Supriyo Datta to convey key concepts of nanoelectronics and quantum transport to students with no background in quantum mechanics or statistical mechanics.

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JUNGYUN KWON onto Physics

This five-week short course aims to introduce students to the thermoelectric theory and applications using a unique, “bottom up” approach to carrier transport that has emerged from research on…

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JUNGYUN KWON onto TE

Basic Concepts presents key concepts in nanoelectronics and mesoscopic physics and relates them to the traditional view of electron flow in solids.

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JUNGYUN KWON onto electronics

A free five-week course on the essential physics of thermal energy at the nanoscale.

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JUNGYUN KWON onto Physics

A five-week course on the basic physics that govern materials at atomic scales.

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JUNGYUN KWON onto Material

This course will introduce the students to the basic concepts and postulates of quantum mechanics. Examples will include simple systems such as particle in an infinite and finite well, 1D and 2D harmonic oscillator and tunneling. Numerous approximation techniques, such as WKB method, time-dependent and time-independent perturbation theory, variational methods and numerical solution methods of the 1D Schrödinger equation, will be presented. The importance of quantum-mechanics in todays life …

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Noe Nieto onto To Read

This course will introduce the students to the basic concepts and postulates of quantum mechanics. Examples will include simple systems such as particle in an infinite and finite well, 1D and 2D harmonic oscillator and tunneling. Numerous approximation techniques, such as WKB method, time-dependent and time-independent perturbation theory, variational methods and numerical solution methods of the 1D Schrödinger equation, will be presented. The importance of quantum-mechanics in todays life …

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Mahesh Anigol onto Quantum Mechanics for Engineers

Nanodevice design through organization of functional biological components; bio-molecular function and bioconjugation techniques in nanotechnology; modulation of biological systems using nanotechnology; issues related to applying biological nanotechnology in food energy, health, and the environment.

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Fabian Marquardt onto Bioinspired Engineering

This five-week short course aims to introduce students to bioelectricity using a unique, “bottom up” approach.

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Fabian Marquardt onto Bioinspired Engineering

The purpose of this independent study is to give students hands-on experience in using computers to model neural systems. A neural system is a system of interconnected neural elements, or units. Students will use existing computer programs which will simulate real neural systems. They will compare the behavior of the model units with neurophysiological data on real neurons. The neural system models will all perform a useful computation, and the similarity between the behaviors of model units …

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Fabian Marquardt onto Bioinspired Engineering

A five week course distilling the principles and physics of electronic nanobiosensors.

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Fabian Marquardt onto Bioinspired Engineering

A five-week course on organic electronic materials, covering molecular properties of organic semiconductors, microstructural characterization of organic semiconductors, and charge generation and…

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Fabian Marquardt onto Bioinspired Engineering

In quantum mechanics the time-independent Schrodinger\‘s equation can be solved for eigenfunctions (also called eigenstates or wave-functions) and corresponding eigenenergies (or energy levels) for a stationary physical system. The wavefunction itself can take on negative and positive values and could be complex. The square magnitude of the wave-function is the probability density of finding the particle in space at that particular energy level.


A quantum dot is a physical system that …

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Deqi Tang onto wavefunctions

VEDA

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Kasinan Suthiwanich onto AFM

Graphene physics

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Mahmudul Hasan Doha onto 2D

This lecture series introduces the basic concepts and key topics underlying the interdisciplinary areas of BioMEMS and Bionanotechnology. Advances in this field require the knowledge of polymer processing and soft lithography in addition to knowledge of silicon-inspired fabrication. Since the end goal of these devices and systems is to form sensors for biological and chemical entities, this introduction covers DNA, proteins, microbiology, and microfluidics to equip the listeners\’ deeper engagement in these exciting areas of research.

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Yashodeep Patil onto BioMEMS

Learn the underlying engineering principles used to detect small molecules, DNA, proteins, and cells in the context of applications in diagnostic testing, pharmaceutical research, and environmental monitoring. Biosensor approaches including electrochemistry, fluorescence, acoustics, and optics will be taught. The course also teaches aspects of selective surface chemistry, including methods for biomolecule attachment to transducer surfaces. Students will learn how biosensor performance is …

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Yashodeep Patil onto Biosensors data

This resource describes how to access files on nanoHUB using webdav.

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Tanya Faltens onto OOMMF collection

Crystalline Cellulose – Atomistic Toolkit

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Carlos Felipe Guzmán onto Molecular Dynamics

Practical introduction to the operation of transmission electron microscopes. Microscope design and function; imaging and diffraction modes and image content; instrument operation. Required of all students who use the TEM in their research.

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Med Alae A K onto TEM

In this lecture we carry out simulations in-class, with guidance from the instructors. We use the LAMMPS tool (within the nanoHUB simulation toolkit for this course). Examples include calculating the energy per atom of different fullerenes and nantubes, computing the Young’s modulus of a nanotube with and without a Stone-Wales defect, and examining the effects of temperature.Nanoscale Science and Engineering C242/Physics C203 University of California, Berkeley

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Carlos Felipe Guzmán onto CNT

Presentation slides for seminar given for students of Faculty of Computer Sciences of Odessa State Environmental University, Ukraine by Prof. Yuri Kruglyak on May 22, 2008.

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Carlos Felipe Guzmán onto CNT