Here, we present a simple PDMS-based approach to obtain reversibly sealable microfluidic devices with versatile channel designs, withstanding pressures up to 600 kPa. We demonstrate, that the fabricated devices allow for direct printing of electronic interconnects on flexible surfaces as well as for micropatterning UV curable materials.
Here, we present a simple PDMS-based approach to obtain reversibly sealable microfluidic devices with versatile channel designs, withstanding pressures up to 600 kPa. We demonstrate, that the fabricated devices allow for direct printing of electronic interconnects on flexible surfaces as well as for micropatterning UV curable materials.