Removal of polyimides used as sacrificial layer in fabricating MEMS devices can be challenging after hardbaking, which may easily result by the end of multiple-step processing. We consider the specific commercial co-developable polyimide ProLift 100 (Brewer Science). Excessive heat hardens this material, so that during wet release in TMAH based solvents, intact sheets break free from the substrate, move around in the solution, and break delicate structures. On the other hand, dry reactive-ion etching of hard-baked ProLift is so slow, that MEMS structures are damaged from undesirably-prolonged physical bombardment by plasma ions. We found that blanket exposure to ultraviolet light allows rapid dry etch of the ProLift surrounding the desired structures without damaging them. Subsequent removal of ProLift from under the devices can then be safely performed using wet or dry etch. We demonstrate the approach on PECVD-grown silicon-oxide cantilevers of 100 micron × 100 micron area supported 2 microns above the substrate by ~100-micron-long 8-micron-wide oxide arms.
[1]
Oliver Edwards,et al.
Simulation and experimental studies of an uncooled MEMS capacitive infrared detector for thermal imaging
,
2006
.
[2]
Christopher J. Von Benken,et al.
Rapid integrated circuit delayering without grass
,
1996,
Advanced Lithography.
[3]
Nazmul Islam.
Microelectromechanical Systems and Devices
,
2012
.
[4]
John R. Tower,et al.
Uncooled IR imager with 5-mK NEDT
,
1997,
Defense, Security, and Sensing.
[5]
Thomas S. Villani,et al.
Progress toward an uncooled IR imager with 5-mK NETD
,
1998,
Optics & Photonics.
[6]
Rodica Ramer,et al.
Dry release of MEMS structures using reactive Ion etching technique
,
2009,
2009 3rd IEEE International Symposium on Microwave, Antenna, Propagation and EMC Technologies for Wireless Communications.