520/530/580.495 Microfabrication Lab
520.773 Advanced Topics in Fabrication and Microengineering
Class Presentation
In this course we are learning the basis of fabrication technologies within a context of a laboratory that has limited scope and facilities. We have a contact mask aligner, a photoresist spinner, an oxidation furnace, and a thermal evaporator as well as basic chemical setups for wet etching. However we need to broaden our horizons about what is possible to do and what the state of the art is. The following papers discuss both processing improvements in fabrication and integration as well as different devices with applications in biology/medicine.
i) T. Ouchi et. al., "Direct Coupling of VCSELs to Plastic Optical FibersUsing Guide Holes Patterned in a Thick Photoresist," IEEE PHOTONICS TECHNOLOGY LETTERS, VOL. 14, NO. 3, MARCH 2002 (pdf)
ii) T. H. Wang, Y. H. Peng, C. Y. Zhang, P. K. Wong, C. M. Ho, " Single-molecule tracing on a fluidic microchip for quantitative detection of low-abundance nucleic acids," Journal of the American Chemical Society 127 (15): 5354-5359 2005 (pdf)
Read ONE of the above two papers and prepare a presentation for the class. In preparing your presentation keep in mind the resources of the lab at Hopkins and discuss the possibility of doing the project in the facilities available at Johns Hopkins. Work in groups of 2 or 3 (teams that you had in the lab sections). You will have 5 minutes for your presentation with an additional 2 minutes for questions. Your presentation should be prepared using a presentation software package (Powerpoint, Freelance e.t.c) and converted to a PDF file. Bring your presentation on a floppy or a memory stick so that we can do an electronic presentation in the class. Your presentation should contain no more than 8 slides WITHOUT color background (you can use color figures but do not use fancy background schemes).
The presentation should include:
Please hand in: i) an electronic AND ii) hardcopy version of your presentation