1. MEMS Fabrication By
Thomas Szychowski

2. MEMS overview Micron level mechanical parts
Made from transistor materials and metals
Van Der Waals forces
Intermolecular bonding
Plays an important part in design

3. Fabrication Techniques
Mask Lithography
Injection molding
Microstereolithography
Silicon Surface Micromachining
Silicon Bulk Micromachining

4. Mask Lithography Use of photo resist Multiple layers – Multiple steps
Positive
Dissolves under light
Negative
Hardens under light
Both get covered with desired material, then photo resist is dissolved by a solvent
Multiple layers – Multiple steps

5. Mask Lithography

6. Injection Molding Starts with mask lithography
Metal poured over resist
Resist gets dissolved
Metal form is left for plastic injection molding

7. Injection Molding

8. Microstereolithography
Similar principal to mask lithography, but for 3D pieces
Uses an “active mask”
Not a physical mask
Utilizes a photo-reactive acrylic resin
Each layer image projected through a DMD(digital mirror device)
Projected into the resin
Uses lenses
Resin that is illuminated, Cross-links and hardens
Piece is then covered in a hardened layer

9. Microstereolithography
Dimensional capabilities
Lateral and Vertical resolution: 10μm
Maximum field size: 10.24mm x 7.68mm
Structural height: up to 5mm

10. Microstereolithography

11. Microstereolithography

12. Silicon Surface Micromachining
Uses the same process as IC fabrication
Needs multiple layers to create structures
Cheapest form of Micromachining
Similar to lithography
Sacrificial material
Structural material
When sacrificial material is removed, only whole structures are left

13. Silicon Surface Micromachining

14. Silicon Surface Micromachining

15. Silicon Surface Micromachining

16. Silicon Bulk Micromachining
Done with Crystalline silicon
Constructed using etch stop planes
Chemical process
Anisotropic Etching
Speed dependent – Directional
etch in different crystallographic directions at different rates
Slower directions create and etch stop plane

17. Deep Reactive Ion Etching (DRIE)
Uses photo resist and a mask to create structures

18. Sapphire Etching Metal Mask 100µm etch depth .28µm/min etch rate
Chlorine etching

19. Pressure Sensor Etching
Used on silicon
Metal mask
.81µm etch depth
Utilizes Fluorine

20. High-Speed Etching
Silicon material
1µm/min etch rate
W-Si Mask

21. Whacky Neato Pictures

22. Questions ?

23. References http://home.earthlink.net/~trimmerw/mems/tour.html
“Micromachining for Optical and Optoelectronic Systems”. MING C. WU