Abstract
Over the past few decades, polydimethylsiloxane (PDMS) has become the material of choice for a variety of microsystem applications, including microfluidics, imprint lithography, and soft microrobotics. For most of these applications, PDMS is processed by replication molding; however, new applications would greatly benefit from the ability to pattern PDMS films using lithography and etching. Metal hardmasks, in conjunction with reactive ion etching (RIE), have been reported as a method for patterning PDMS; however, this approach suffers from a high surface roughness because of metal redeposition and limited etch thickness due to poor etch selectivity. We found that a combination of LOR and SU8 photoresists enables the patterning of thick PDMS layers by RIE without redeposition problems. We demonstrate the ability to etch 1.5-μm pillars in PDMS with a selectivity of 3.4. Furthermore, we use this process to lithographically process flexible fluidic microactuators without any manual transfer or cutting step. The actuator achieves a bidirectional rotation of 50° at a pressure of 200 kPa. This process provides a unique opportunity to scale down these actuators as well as other PDMS-based devices.
Highlights
Polydimethylsiloxane (PDMS) is one of the most versatile materials for fabricating microsystems[1]
The reactive ion etching (RIE) of PDMS defines the outer contours of the actuators where the combination of LOR30B/SU8 2050 is used as an etch mask, as described above
PDMS has become omnipresent in microsystems technology and has been instrumental for the development of microfluidic systems
Summary
Polydimethylsiloxane (PDMS) is one of the most versatile materials for fabricating microsystems[1]. An important advantage of SU8 masks is that they can be patterned in thick layers (4200 μm) with aspect ratios over 20 (Ref. 15), allowing long etch times. We developed a process using a thin sacrificial liftoff resist (LOR; MicroChem) layer that is etched afterwards to release the SU8 masks.
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