Reversible surface modification of polydimethylsiloxane film for stretchable display

Abstract

AbstractA polydimethylsiloxane (PDMS) film is the most widely used elastomeric substrate for stretchable electronic devices. However, it is difficult to directly deposit a metal layer on the PDMS film because many defects such as cracks and wrinkles in the metal layer form too easily. This problem can be addressed by modifying the film surface rigidly through some surface oxidation processes. However, this rigid surface should be removed after the fabrication process is completed because the surface may induce lots of cracks on the PDMS film when the fabricated stretchable electronic device is used in a stretching state. In this study, a wet etching process using a buffered HF (BHF) solution is used to effectively remove the rigid surfaceformed on the PDMS film and to dramatically reduce the crack lines formed after the PDMS film stretching. Hence, areversible process for controlling the mechanical properties of the PDMS film surface was established. According tosome analysis results, the rigid surface formed by UV ozone exposure on the PDMS film was found to have apolysiloxane network structure including more silicon atoms bound to three oxygens, and the surface etched by BHFsolution was found to be recovered to the similar structure with that of the PDMS film.