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If it is necessary for you to take deficiency courses, they must be taken in thefirst the first semester they are offered after you enter the program. The graduate advisor will determine, after meeting with you, whether these courses are necessary for successful completion of graduate-level course work. These courses are:
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Core Materials Science Courses:These courses are required for all degree plans.
For those who have entered the program BEFORE Fall 2021:
1. Phase Transformations: ME 386P1 or equivalent |
2. Thermodynamics: ME 386P3, CH 382L, CHE 387, or equivalent |
Choose 1 from 3 below |
3. Mechanical Behavior of Materials: ME 386P2 or equivalent |
4. Structure of Materials: ME 386P5 or equivalent |
5. Solid State Properties of Materials: ME 386P4 or equivalent |
For those who have entered the program AFTER Fall 2021:
1. Phase Transformations: MSE 386P1 or equivalent |
2. Thermodynamics: MSE 386P3, CH 382L, CHE 387, or equivalent |
3. Structure of Materials: MSE 386P5 or equivalent |
Choose 1 from 2 below |
4. Mechanical Behavior of Materials: ME 386P2 or equivalent |
5. Solid State Properties of Materials: ME 386P4 or equivalent |
Required Thrust Area Courses:
The required Thrust courses depend on the Thrust area you are enrolled in. See below for a list of courses that satisfy each Thrust area. You must take three courses to satisfy this requirement. If you find a course that you think fits into a Thrust area but is not listed, please ask the graduate advisor. New courses are added on a regular basis.
For those who have entered the program BEFORE Fall 2021:
General Materials Science | Clean Energy Materials | Nanomaterials |
1. Elective #1 | Choose three from list below: | Choose three from list below: |
2. Elective #2 | 1. ME 386Q-14 Electrochemical Materials | 1. CHE 384 Nanomaterial Chemistry and Engineering |
3. Elective #3 | 2. CH 390L Electrochemistry I | 2. ME 387R-9 Practical Electron Microscopy |
3.CH 390L Electrochemistry II | 3. ME 397 Introduction to Micro and Nanomanufacturing | |
4. ME 386Q Electrochemical Energy Systems | 4. ME 397 Nanotech Sensing/NEMS/Energy | |
5. EE 396K-25 Organic/Polymer Semiconductor Devices | 5. EE 396V/CHE 384 Inorganic Nanostructures For Device Applications | |
6. EE 396K-27 Charge Transport In Organic Semiconductors | 6. EE 396V Advanced Solid-State Materials/Nanostructures | |
7. EE 396V Semiconductor Nanostructures | 7. ME 381R-7 Nanoscale Energy Transport/Conversion | |
8. ME 381R Nanoscale Energy Transport/Conversion | ||
9. ME 382Q Solar Energy System Design | ||
10. ME 397 Nanotechnology for Sustainable Energy |
For those who have entered the program AFTER Fall 2021:
General Materials Science | Clean Energy Materials | Nanomaterials |
1. Elective #1 | 1. Elective #1 | 1. Elective #1 |
2. Elective #2 | 2. Elective #2 | 2. Elective #2 |
3. Elective #3 | 3. Elective #3 | 3. Elective #3 |
**Please discuss with your supervising faculty the best three courses for your research interest and dissertation topic.**
Advanced Level Elective Courses:
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The MS&E program itself offers a limited number of courses under the MSE designation: seminar, core courses, individual research, thesis, report, and dissertation courses. Academic Other academic courses are chosen from courses offered with departmental designations such as Chemical Engineering, Chemistry, Electrical and Computer Engineering, Engineering Mechanics, Mechanical Engineering, and Physics. It is a good idea to plan your program of work early in your academic career with the help of your faculty supervisor and the graduate advisor. Remember that most graduate courses are offered at most once a year, while others are offered less frequently.
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