6.151 Microfabrication Project Laboratory, Fall 2003
Integrating PCR amplification with silicon field-effect
sensors for real-time DNA detection
| Instructors: | Professors Scott Manalis and Martin Schmidt |
| Guest Instructor: | Dr. Raj Chakrabarti |
| Teaching Assistant: | Maxim Shusteff |
| Advisors: | Peter Russo and Dr. Paul Benning |
| Prerequisites: | 6.152 or equivalent |
FINAL REPORT ........ HEATER MOVIE |
| ASSIGNMENTS | READING | TIMELINE | PRESENTATIONS |
| LAB NOTEBOOK | MEMBERS | RESOURCES |
|
1998: Kopp et al. micromachined a chemical amplifier to perform polymerase chain reaction (PCR) in continuous flow at high speed. (Science 280 1046) |
COURSE DESCRIPTION: The project goal for fall 2003 is to integrate PCR, silicon field-effect sensors, and microfluidics for applications that require real-time and point-of-use DNA analysis. In achieving this goal, students will gain first-hand experience with MEMS design, process development, fabrication in the Microsystems Technology Laboratory and device characterization as well as biochemical methods relevant for performing PCR. This course will require ~15 hours per week. Please pre-register by emailing your academic/research background and course schedule for fall 2003 to: scottm@media.mit.edu.
|
||
|
|
|
|
|
| 2002: Fritz et al. reported the selective and real-time detection of label-free DNA using a silicon field-effect detector. (PNAS 99 14142) | 2002: The 6.151 class successfully integrated PDMS microfluidics with planar silicon field-effect sensors. | ||
