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ECE 695Q Lecture 41: Advanced Lithography I
12 Oct 2016 | | Contributor(s):: Minghao Qi
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ECE 695Q Lecture 42: Advanced Lithography II
02 Dec 2016 | | Contributor(s):: Minghao Qi
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ECE 695Q Lecture 43: Advanced Lithography III
01 Nov 2016 | | Contributor(s):: Minghao Qi
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ECE 695Q Lecture 44: Etching
02 Dec 2016 | | Contributor(s):: Minghao Qi
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ECE 695Q Lecture 45: Dry Etching I
02 Dec 2016 | | Contributor(s):: Minghao Qi
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ECE 695Q Lecture 46: Dry Etching II
01 Dec 2016 | | Contributor(s):: Minghao Qi
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ECE 695Q Lecture 47: Dry Etching III
01 Dec 2016 | | Contributor(s):: Minghao Qi
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ECE 695Q Lecture 48: Planarization I
01 Dec 2016 | | Contributor(s):: Minghao Qi
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ECE 695Q Lecture 49: Planarization II
01 Dec 2016 | | Contributor(s):: Minghao Qi
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ECE 695Q: Nanometer Scale Patterning and Processing
11 Jul 2016 | | Contributor(s):: Minghao Qi
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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EDA Challenges in Nanoscale Design: A Synopsys Perspective
11 Apr 2006 | | Contributor(s):: Rich Goldman
Rich Goldman gives an overview of the current state ofthe semiconductor and EDA (Electronic Design Automation) industry with aspecial focus on the impact of nanometer scale design on design tools andthe economics of the industry.
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Energy and Nanoscience A More Perfect Union
27 Mar 2009 | | Contributor(s):: Mark Ratner
Huge problems of energy and sustainability confront the science/engineering community, mankind, and our planet. The energy problem comes in many dimensions, including supply, demand, conservation, transportation, and storage. This overview will stress the nature of these problems, and offer a few...
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Exploring Electron Transfer with Density Functional Theory
11 Jun 2006 | | Contributor(s):: Troy Van Voorhis
This talk will highlight several illustrative applications of constrained density functionaltheory (DFT) to electron transfer dynamics in electronic materials. The kinetics of thesereactions are commonly expressed in terms of well known Marcus parameters (drivingforce, reorganization energy and...
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Exponential Challenges, Exponential Rewards - The Future of Moore's Law
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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Fabrication of a MOSFET within a Microprocessor
16 Nov 2005 | | Contributor(s):: John C. Bean
This resource depicts the step-by-step process by which the transistors of an integrated circuit are made.
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Feasibility of Molecular Manufacturing
14 Mar 2005 | | Contributor(s):: EPICS LSPM Team
Martin and Laura have an interesting debate about the feasibility of Molecular Manufacturing. Can molecular assemblers be developed to create new materials, new devices, and even macroscopic objects? Find out... If Martin ever wakes up!
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Focused Ion Beam (FIB): “Seeing” and “Processing” at the Nano-Scale
28 Sep 2018 | | Contributor(s):: Wook Jun Nam, NACK Network
OutlineFIB OverviewFIB OperationFIB Applications
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High-Aspect-Ratio Micromachining of Titanium: Enabling New Functionality and Opportunity in Micromechanical Systems Through Greater Materials Selection
09 Apr 2007 | | Contributor(s):: Masa Rao
Traditionally, materials selection has been limited in high-aspect-ratio micromechanical applications, due primarily to the predominance of microfabrication processes and infrastructure dedicated to silicon. While silicon has proven to be an excellent material for many of these applications, no...
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High-Aspect-Ratio Micromachining of Titanium: Enabling New Functionality and Opportunity in Micromechanical Systems Through Greater Materials Selection
18 Jun 2008 | | Contributor(s):: Masa Rao
Traditionally, materials selection has been limited in high-aspect-ratio micromechanical applications, due primarily to the predominance of microfabrication processes and infrastructure dedicated to silicon. While silicon has proven to be an excellent material for many of these applications, no...
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How Chemical Engineers Will Save the World
26 Mar 2009 | | Contributor(s):: William F. Banholzer
The world is facing massive challenges brought on by population growth, economic meltdowns, and environmental constraints. Scientific solutions are needed now more than ever. In this seminar, an overview of certain mega trends is presented – emphasizing how the skills possessed by chemical...