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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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Viktor Poltavets onto Courses

A five-week course distilling the essentials of the materials science of rechargeable batteries.

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Viktor Poltavets onto Courses

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

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Viktor Poltavets onto Courses

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

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Viktor Poltavets onto Courses

Обзорно по нанофотонике (2006 год)

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Steven Limpert onto To Take

BioMEMS and Bionanotechnology have the potential to make significant impact in a wide range of fields and applications. This lecture series introduces the basic concepts and 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 silicon-inspired fabrication. Since the primary aim of many of these devices and systems is to form sensors for biological and chemical entities, an introduction to DNA, proteins, and microbiology is also essential. These devices and systems are designed to handle fluids at these small scale and hence the basic concepts of microfluidics need to be reviewed. Means to transport fluids and biological entities in these devices are necessary for the proper functioning and design of integrated devices, that can perform complete analysis on biological and chemical samples. These key topics are reviewed in this lecture series to equip the listener to get engaged deeper in these exciting areas of research.

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Kasinan Suthiwanich onto Bio

Scattering and Absorption of Light by Small Particles

Bruce T. Draine, Dept. of Astrophysical Sciences, Princeton University

A list of resources, including Fortran code, for calculation the scattering and absorption of light by small particles. 

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Retrieves optical constants of a material by fitting it to VASE (Variable Angle Spectroscopic Ellipsometry) data

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Andrei Rogov onto Optical Constraints

NEEDS Compact Model Release – Lessons Learned from MVS 1.0.0

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BYUNG-IL KWAK onto Compact Modeling

NEEDS Compact Model Development Process - v0.1

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BYUNG-IL KWAK onto Compact Modeling

The MVS Nanotransistor Model: A Case Study in Compact Modeling

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BYUNG-IL KWAK onto Compact Modeling

The MVS Nanotransistor Model: A Primer

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BYUNG-IL KWAK onto Compact Modeling

How to Write, Develop and Implement a Real Compact Model

Colin McAndrew

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BYUNG-IL KWAK onto Compact Modeling

Near-Equilibrium Transport: Fundamentals and Applications

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BYUNG-IL KWAK onto Lecture

Introduction to Compact Models and Circuit Simulation

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BYUNG-IL KWAK onto Compact Modeling

Basics of Compact Model Development

Mudanai Intel

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BYUNG-IL KWAK onto Compact Modeling

The Berkeley Model Development Environment: A MATLAB-based Platform for Modeling and Analyzing Nanoscale Devices and Circuits

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BYUNG-IL KWAK onto Compact Modeling

Dealing with Common Numerical Issues in Compact Models 2

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BYUNG-IL KWAK onto Compact Modeling

Dealing with Common Numerical Issues in Compact Models 1

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BYUNG-IL KWAK onto Compact Modeling

NEEDS Workshop on Compact Modeling, 2013

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BYUNG-IL KWAK onto Compact Modeling

This talk presents some examples of state-of-the-art integrated imaging systems based on computed tomography (CT), transmission electron microscopy (STEM), synchrotron beam imaging, optical sensing, and scanning electron microscopy (SEM). For each of these examples, we also explore their use and potential impact in applications ranging from healthcare to jet engine design. We conclude with some speculation on where integrated imaging might be going; where it might have greatest impact; and what will be the greatest challenges ahead.

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Joseph M. Cychosz onto Imaging

This resource is an introduction to the theory ballistic nanotransistors. No transistor is fully ballistic, but analyzing nanotransistors by neglecting scattering processes provides new insights into the performance and limits of nanoscale MOSFETs. The materials presented below introduces the basic theory and shows how it can be applied to current problems in device research. The concepts are illustrated by exercises that make use of live simulations with the program, FETToy.

This …

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Sameeha Akram onto courses

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.