This work presents the fabrication of SiOC ceramic microparts starting from a commercially available preceramic polysiloxane. Two different micro structuring techniques were applied, e.g. photolithography and soft-lithography. For both processes, photo-crosslinking of the preceramic polymer was performed. Subsequently, the green microparts were pyrolysed under argon at temperatures between 1000 and 1400 degrees C to yield ceramic SiOC microcomponents. In this way, ceramic microstructures on Si wafers (with dimensions down to 20 mu m) have been obtained by photolithographic techniques: free-standing and complex shaped ceramic microcomponents (aspect ratios up to 3:1) were also produced using soft lithography techniques, i.e. replica molding (RM) followed by micro transfer molding (mu TM).
Fabrication of silicon oxycarbide-based microcomponents via photolithographic and soft lithography approaches
MISTURA, GIAMPAOLO;
2011
Abstract
This work presents the fabrication of SiOC ceramic microparts starting from a commercially available preceramic polysiloxane. Two different micro structuring techniques were applied, e.g. photolithography and soft-lithography. For both processes, photo-crosslinking of the preceramic polymer was performed. Subsequently, the green microparts were pyrolysed under argon at temperatures between 1000 and 1400 degrees C to yield ceramic SiOC microcomponents. In this way, ceramic microstructures on Si wafers (with dimensions down to 20 mu m) have been obtained by photolithographic techniques: free-standing and complex shaped ceramic microcomponents (aspect ratios up to 3:1) were also produced using soft lithography techniques, i.e. replica molding (RM) followed by micro transfer molding (mu TM).Pubblicazioni consigliate
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