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This course is a top-down approach to the fabrication of nanometer-scale (<100nm) structures. Principles of lithography, film deposition, reactive-ion etch and planarization are presented. The couse provides a survey of state-of-the-art nanofabrication techniques.

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Ambar Shukla onto Lithography

A two-part series of online courses covering the principles and practice of atomic force microscopy.

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Nuerxida Pulati onto AFM

A free two-part series of online courses covering the principles and practice of atomic force microscopy.

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Nuerxida Pulati onto AFM

2003 SURI Conference Proceedings

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Nuerxida Pulati onto AFM

Atomic Force Microscopy (AFM) is an indispensible tool in nano science for the fabrication, metrology, manipulation, and property characterization of nanostructures. This tutorial reviews some of the physics of the interaction forces between the nanoscale tip and sample, the dynamics of the oscillating tip, and the basic theory of some of the common modes of AFM operation. The tutorial summarizes some of the exciting new applications of Atomic Force Microscopy.

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Nuerxida Pulati onto AFM

A course for students interested in learning the fundamentals underlying Atomic Force Microscopy.

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Nuerxida Pulati onto AFM

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Nuerxida Pulati onto TEM

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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Nuerxida Pulati onto TEM

This training session is based on the Keithley 4200-SCS Semiconductor Characterization System. It is intended for beginning to intermediate users. It covers basic concepts, both of the instrument, as well as general measurement considerations.

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Luke Allen Yates onto Keithley 4200 SCS

In the last 50 years, solid state devices like transistors have evolved from an interesting laboratory experiment to a technology with applications in all aspects of modern life. Making transistors is a complex process that requires unprecedented collaboration among material scientists, solid state physicists, chemists, numerical analysts, and software professionals. And yet, as you will see in part 1 of this course (first 5 weeks), that the basics of current flow though solid state …

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Luke Allen Yates onto semiconductor devices

Raman spectroscopy processing for Graphene growth characterization

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Guoxiong Cai onto Graphene-Growth

Optimizes the growth of graphene in a plasma chemical vapor deposition (CVD) system.

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Guoxiong Cai onto Graphene-Growth

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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Shivam Singh onto nanoelectronics

The goals of this course are to give the student an understanding of the elements of semiconductor physics and principles of semiconductor devices that (a) constitute the foundation required for an electrical engineering major to take follow-on courses, and (b) represent the essential basic knowledge of the operation and limitations of the three primary electronic devices, 1) p-n junctions, 2) bipolar transistors, and 3) field effect transistors, that either an electrical engineer or a computer engineer will find useful in maintaining currency with new developments in semiconductor devices and integrated circuits in an extended career in either field.

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Shivam Singh onto solid state

Introduction to quantum mechanics and solid state physics. Specific topics include free electron behavior, potential energy wells and barriers, energy band theory, phonons, and electrical properties of metals and semiconductors. This course develops many concepts of fundamental interest to nanoscale science and engineering such as quantum confinement and reduced dimensionality effects in nanomaterials.

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Shivam Singh onto quantum

Scaling of CMOS devices into the nanometer regime leads to increased processing cost. In this regard, the field of Computational Electronics is becoming more and more important because device simulation offers unique possibility to test hypothetical devices which have not been fabricated yet and it also gives unique insight into the device behavior by allowing the observation of phenomena that can not be measured on real devices. The objective of this class is to introduce the students to all semi-classical semiconductor device modeling techniques that are implemented in either commercial or publicly available software. As such, it should help students to understand when one can use drift-diffusion model and when it is necessary to use hydrodynamic, lattice heating, and even particle-based simulations. A short tutorial on using the Silvaco/PADRE simulation software is included and its purpose is to make users familiar with the syntax used in almost all commercial device simulation software.

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CM Kaushik onto MyCollection

What Is Computational Electronics and Why Do We Need It?

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CM Kaushik onto MyCollection

Solid-State Theory and Semiconductor Transport Fundamentals

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CM Kaushik onto MyCollection

Solid-State Theory and Semiconductor Transport Fundamentals

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CM Kaushik onto MyCollection

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CM Kaushik onto MyCollection

Introduction of Quantum-Mechanical Effects in Device Simulation

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CM Kaushik onto MyCollection

Silvaco/PADRE Description and Application to Device Simulation

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CM Kaushik onto MyCollection

Drift-Diffusion Model

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CM Kaushik onto MyCollection