Jan 17, 2025  
2022-2023 Catalog 
    
Catalog Navigation
  Catalog Home
  Welcome from the President
  Programs by Department
  Programs/Alphabetical Listing
  Courses/ Master Syllabi
  General Education Learning Goals
  Understanding Academic Programs
  Understanding Courses and Credit Hours
  Pennsylvania Transfer and Articulation
  Articulation Agreements
  Transfer Credit & Prior Learning
  College Mission, Vision and Goals
  Campuses and Centers
  Virtual Campus
  Tuition & Fees
  Getting Started
  Academic Planning
  Learning Environment & Academic Support
  Academic Rules & Regulations
  Academic Calendars
  Glossary and Definitions
  Appendices
  College Leadership
  Administration & Academic Community
  My Portfolio
HELP
2022-2023 Catalog [ARCHIVED CATALOG]

Facebook this Page (opens a new window)
Tweet this Page (opens a new window)
Add to Portfolio (opens a new window)

MFT 215 - Materials Modification for Nanofabrication Applications

Credits: 3
2 Lecture Hours 2 Lab Hours

Prerequisites: MFT 211  and MFT 212  
Co-requisites: MFT 216  

Description
(Formerly MFT-215) This course covers the processing steps used in modifying material properties in nanofabrication. Included are applications of nano-scale devices and systems and the resulting material chemical, physical, biological or multiple-property requirements. Use of diffusion barriers, encapsulation, electromigration control, corrosion control, wettability, stress control and adhesion are studied.
Learning Outcomes
Upon successful completion of the course, the student will:

  1. Apply proper safety and cleanroom behavior.
  2. Operate materials modification equipment in a nanofabrication facility.
  3. Evaluate thermal budget requirements for a typical project.
  4. Grow gate and field oxides and implants for drain and source regions.
  5. Use negative photolithography to produce microfluidic devices.
  6. Describe particle flow in Polydimethylsiloxane (PDMS) channels.
  7. Recognize materials modification using ion implantation.
  8. Make angle measurements and correlate these with surface treatments.
  9. Operate a spin coater.
Listed Topics
  1. Thermal processes
  2. Surface preparations
  3. Oxidation fundamentals
  4. Barrier layer formation
  5. Alloying
  6. Grain size and mechanical properties
  7. Grain size and optical properties
  8. Materials modifications
  9. Spin coaters and oxide dopants
Reference Materials
Instructor-approved textbook and materials.
Approved By: Johnson, Alex Date Approved: 05/01/2012


Course and Section Search



Facebook this Page (opens a new window)
Tweet this Page (opens a new window)
Add to Portfolio (opens a new window)