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| Coursework in Micro- and Nanosystems |
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Graduate research in Micro/Nanosystems at Cornell is energized by
the existence of an extensive and diverse community of researchers.
This community, evidenced by multiple NSF centers such as the Nanobiotechnology
Center, the
Cornell Center for Materials Research, the Center for Nanoscale Systems,
and the
Cornell Nanofabrication Facility, has led to a dynamic suite of courses
suitable for graduate students. Below
we list a number of graduate courses typically taken by students. Countless
other classes are available, see descriptions at the Cornell
Courses of Study website. |
| Micro- and Nanoscale Fabrication: |
- MAE 524/624 physics of micro/nanoscale fluid mech
- MAE 656 nanoscale energy transport and conversion
- ECE 598 special topics--nanoelectromechanical systems
- ECE 432 MEMS
- ECE 536 nanofabrication
- AEP 662 micro/nanofabrication and processing
- AEP 663 nanobiotechnology
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| Colloids, Interface Science, Interfacial Chemistry: |
- MAE 524/624 physics of micro/nanoscale fluid mech
- ChBE 644 aerosols and colloids
- MSE 589 colloids for materials processing
- CHEM 629 electrochemistry
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| Fluid Mechanics and Transport in Micro/Nanosystems: |
- MAE 524/624 physics of micro/nanoscale fluid mech
- MAE 656 nanoscale energy transport and conversion
- MAE 523 intermediate fluid mechanics
- MAE 601 foundations of fluid mechanics
- MAE 733 stability of fluid flow
- MAE 737 computational fluid mech & heat transfer
- ChBE 713 chemical kinetics and transport
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| Biology, Biophysics, Biosensors, Pharmacology: |
- BME 631/ ChBE 631 drug delivery
- ChBE 543 bioprocess engineering
- BME 570 biophysical methods
- BME 711 fundamentals of Biomed eng research
- BME 790 biomed eng seminar
- BME 570 biophysical methods
- BEE 659 biosensors and bioanalytical techniques
- AEP 571 biophysical methods advanced lab
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| Mathematical Methods: |
- TAM 610 methods of appl math I
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