Conference Session

Micro-/Nano-Technology Education

Collection

2008 Annual Conference & Exposition

Authors

Santosh Kurinec, Rochester Institute of Technology; Michael Jackson, Rochester Institute of Technology; Thomas Schulte, Rochester Institute of Technology; Nathaniel Kane, Rochester Institute of Technology; Elaine Lewis, Rochester Institute of Technology; Surendra Gupta, Rochester Institute of Technology

Tagged Divisions

Materials

AC 2008-699: MICROELECTRONIC ENGINEERING AND NANOTECHNOLOGYEDUCATION FOR UNDERGRADUATES AND PRE-COLLEGE STUDENTSTHROUGH CURRICULUM REFORM AND OUTREACH ACTIVITIESSantosh Kurinec, Rochester Institute of Technology Santosh K. Kurinec is Professor and the Department Head of Microelectronic Engineering at Rochester Institute of Technology. She has led the effort on curriculum reform and is the Principle Investigator of this work. She teaches courses on microelectronic processing and electronic materials. She has extensive experience on materials integration in semiconductor devices.Michael Jackson, Rochester Institute of Technology Mike Jackson is an Associate Professor of Microelectronic

Conference Session

Professional Development in Materials Engineering

Collection

2008 Annual Conference & Exposition

Authors

Katie Cadwell, University of Wisconsin - Madison; Wendy Crone, University of Wisconsin - Madison

Tagged Divisions

Materials

two years. Based upon emergingtechnological opportunities and EP faculty research expertise, three focus areas were chosen:(1) nanoengineering, (2) plasma science, and (3) scientific computing. The EP majors workclosely with a faculty research mentor and receive eight research credits over their last foursemesters and complete an honors thesis.The key outcomes anticipated in establishing is new BS in Engineering Physics curriculum were:(1) a research-oriented undergraduate experience that prepares students to succeed in highlycompetitive graduate research programs or high-tech industry positions; (2) a new engineeringdegree whose structure and approach will serve as a model for other engineering departmentsacross the country pursuing

Conference Session

Materials Education Perspectives

Collection

2008 Annual Conference & Exposition

Authors

Rajiv Asthana, University of Wisconsin-Stout

Tagged Divisions

Materials

priority at that time,however, demanded integration of engineering science content to align the curriculum with theABET standards).The analytical content requiring math knowledge in such courses was adjusted to encourageparticipation and learning by the entire class. Additionally, our program’s distinctly vocationalfocus required that the ‘structure’ component of the central paradigm of materials science:process structure properties performance, be given reduced emphasisii. This posed achallenge because understanding and visualizing how microstructure design via processinginfluences material behavior lays the foundation for understanding, analyzing, predicting andcontrolling the performance of larger, real systems. Likewise, mechanical behavior

Conference Session

Micro-/Nano-Technology Education

Collection

2008 Annual Conference & Exposition

Authors

Nebojsa Jaksic, Colorado State University-Pueblo

Tagged Divisions

Materials

using ahydraulic servomechanism.Preliminary developmental efforts24, 25 in designing the carbon nanotube experiment emphasizedthe whole process including manufacturing and characterization. However, the time andequipment constraints were not adequately addressed. For example, an atomic force microscopein the Chemistry Department was used for material characterization. This created schedulingproblems and required additional time to learn how to use the instrument.Curriculum Context The Engineering of Manufacturing Processes is a required three-hour lecture two-hourlaboratory one-semester junior/senior course offered in the Industrial Engineering program at_______________. This course together with a computer-integrated manufacturing

Conference Session

Micro-/Nano-Technology Education

Collection

2008 Annual Conference & Exposition

Authors

Yoli Jeune, University of Florida; Henry Hess, University of Florida

Tagged Divisions

Materials

really taught in the Materials Science & Engineering Department.Discussion and ConclusionAn opportunity to broaden the impact of this laboratory is its integration into a series of coursesutilizing the Undergraduate Core Lab, which was established by the Honors Program at ourinstitution. The goal of these courses, premiering in Spring 2008, is to increase life scienceknowledge of mathematical, chemistry, physics and engineering undergraduate students and toincrease mathematical, chemical, physical and engineering knowledge of life sciencesundergraduate students. In short the courses as well as the laboratories are meant to betransdisciplinary and interdisciplinary. The feasibility of transitioning the developed laboratoryto an