Introducing Nanotechnology into  an Undergraduate Microelectronics Course

Chung Hoon Lee; Susan C. Schneider; Trevor Thiess

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Conference: 2014 ASEE Annual Conference & Exposition
Location: Indianapolis, Indiana
Publication Date: June 15, 2014
Start Date: June 15, 2014
End Date: June 18, 2014
ISSN: 2153-5965
Conference Session: New ECE Courses
Tagged Division: Electrical and Computer
Page Count: 14
Page Numbers: 24.810.1 - 24.810.14
DOI: 10.18260/1-2--20702
Permanent URL: https://peer.asee.org/20702
Download Count: 375

Paper Authors

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Chung Hoon Lee Marquette University

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Chung Hoon Lee is an Assistant Professor in the Department of Electrical and Computer Engineering at Marquette University, Milwaukee, WI.

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Susan C. Schneider Marquette University

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Susan Schneider is an Associate Professor in the Department of Electrical and Computer Engineering at Marquette University, Milwaukee, WI. She is also the Director of Undergraduate Laboratories for the Electrical Engineering program. Dr. Schneider is a member of ASEE, the IEEE, Sigma Xi and Eta Kappa Nu.

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Trevor Thiess Marquette University

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Abstract

Introducing Nanotechnology into an Undergraduate Microelectronics CourseIn spring 2012, a pilot project to increase student exposure to nanotechnology was carried out inthe first electronic devices course in the electrical engineering program at our university.Students were given the opportunity to build and test memristors in the nanoelectronics researchlaboratory under the supervision of their instructor. In this pilot project, 10% of the students inthe class chose to participate. Based on the success of the first trial, this project will be run againin fall 2014.The topic of memristors was chosen for this project motivated in no small part by the fact thatthese devices are currently of great interest in the microelectronics/nanoelectronics researchcommunity. An additional attribute, deemed essential for this student experience, is the ability tocreate a macro-scale version of the memristor. The project work includes mini-lectures andassigned readings on the history, theory of operation and fabrication, and applications of thesedevices. The experimental work consists of two sections: macro-scale and micro-scalefabrication of memristors. During the macro-scale portion of the project, students practice thememristor fabrication techniques for several different base metals and sulfiding mediums. Then,based on the measured current-voltage characteristics of the macro-scale memristor, the studentsmake choices on the materials and methods to use to scale down to make the micro/nano-scalememristor using industry standard fabrication techniques. A graduate student working in thenanoelectronics laboratory assists the students during all experimental work including safetytraining and helps on both fabrication and data acquisition.In this paper, we will fully describe the memristor pilot project including details of the macro-scale and micro/nano-scale memristor fabrication and testing. Examples of the lecture materialsand readings together with the experimental procedures will be given. And – the success of thisexperience, both in terms of the yield of memristors made by students and their impressions oftheir work, will be described.

Citation
Format

Lee, C. H., & Schneider, S. C., & Thiess, T. (2014, June), Introducing Nanotechnology into an Undergraduate Microelectronics Course Paper presented at 2014 ASEE Annual Conference & Exposition, Indianapolis, Indiana. 10.18260/1-2--20702

TY  - CPAPER
AB  -                              Introducing Nanotechnology into                       an Undergraduate Microelectronics CourseIn spring 2012, a pilot project to increase student exposure to nanotechnology was carried out inthe first electronic devices course in the electrical engineering program at our university.Students were given the opportunity to build and test memristors in the nanoelectronics researchlaboratory under the supervision of their instructor. In this pilot project, 10% of the students inthe class chose to participate. Based on the success of the first trial, this project will be run againin fall 2014.The topic of memristors was chosen for this project motivated in no small part by the fact thatthese devices are currently of great interest in the microelectronics/nanoelectronics researchcommunity. An additional attribute, deemed essential for this student experience, is the ability tocreate a macro-scale version of the memristor. The project work includes mini-lectures andassigned readings on the history, theory of operation and fabrication, and applications of thesedevices. The experimental work consists of two sections: macro-scale and micro-scalefabrication of memristors. During the macro-scale portion of the project, students practice thememristor fabrication techniques for several different base metals and sulfiding mediums. Then,based on the measured current-voltage characteristics of the macro-scale memristor, the studentsmake choices on the materials and methods to use to scale down to make the micro/nano-scalememristor using industry standard fabrication techniques. A graduate student working in thenanoelectronics laboratory assists the students during all experimental work including safetytraining and helps on both fabrication and data acquisition.In this paper, we will fully describe the memristor pilot project including details of the macro-scale and micro/nano-scale memristor fabrication and testing. Examples of the lecture materialsand readings together with the experimental procedures will be given. And – the success of thisexperience, both in terms of the yield of memristors made by students and their impressions oftheir work, will be described.
AU  - Chung Hoon Lee
AU  - Susan C. Schneider
AU  - Trevor Thiess
CY  - Indianapolis, Indiana
DA  - 2014/06/15
PB  - ASEE Conferences
TI  - Introducing Nanotechnology into  an Undergraduate Microelectronics Course
UR  - https://peer.asee.org/20702
DO  - 10.18260/1-2--20702
ER  -