Title :
High throughput parallel micro and nano-scale replication - a low cost alternative for the fabrication of electronic-, optic- and microfluidic devices
Author :
Kreindl, G. ; Miller, R. ; Thanner, C. ; Schachinger, M. ; Hangweier, P.
Author_Institution :
EVGroup, St. Florian, Austria
Abstract :
Nanoimprint Lithography (NIL) is a fast replication technology for structures with sizes ranging from micrometers down to a few nanometers. This paper describes a novel approach for the simultaneous imprinting of multiple polymer substrates simultaneously with multiple polymer stamps defining a new process modality called “Parallel Hot Embossing”. This technique is demonstrated on both bulk thermoplastic materials as well as on spin-on polymers. High-aspect ratio, micro-scale features - as needed for microfluidic lab-on-chip applications - as well as high resolution features down to sub 50 nm - that can be used as etching templates for plasmonic or photonic structuring - are demonstrated.
Keywords :
microfabrication; microfluidics; micrometry; nanofabrication; nanolithography; plasmonics; plastics; polymers; bulk thermoplastic materials; etching templates; fast replication technology; high resolution features; high throughput parallel microscale replication; high throughput parallel nanoscale replication; high-aspect ratio; microfluidic lab-on-chip applications; multiple polymer stamps; multiple polymer substrates; nanoimprint lithography; parallel hot embossing; photonic structuring; plasmonic structuring; simultaneous imprinting; size structures; spin-on polymers; Embossing; Heating; Manganese; Photonics; Substrates;
Conference_Titel :
Nanotechnology (IEEE-NANO), 2012 12th IEEE Conference on
Conference_Location :
Birmingham
Print_ISBN :
978-1-4673-2198-3
DOI :
10.1109/NANO.2012.6321935
