Template replication for full wafer imprint lithography

Typically, the Step and Flash Imprint Lithography (S-FIL (TM)) process uses field-to-field drop dispensing of UV-curable liquids for step-and-repeat patterning. Several applications, including patterned magnetic media, photonic crystals, and wire grid polarizers, are better served by a process that allows high-throughput, full-wafer patterning of sub-100 nm structures with modest alignment. Full-wafer imprinting requires a full-wafer template; however, creation of a wafer-scale imprint template with sub-100 nm structures is not feasible with direct-writing approaches. This paper describes a practical methodology for creating wafer-scale templates suitable for full-wafer imprinting of sub-100 nm structures. The wafer-scale template is replicated from a smaller area master template using the S-FIL step-and-repeat process. The pattern is repeated to accommodate the wafer substrate targeted for a particular application. The tone of the master template is maintained by employing an SFIL/R (TM) (reverse tone) pattern transfer process. To create the replicate template, the patterns are imprinted onto a fused silica wafer that has been coated with chromium and an organic transfer layer. A silicon-containing resist, Silspin (TM), is spun on to planarize the organic monomer material. Following an etch back of the Silspin, the monomer and transfer layer are patterned using the Silspin as a hard mask. The Silspin and monomer stack then serves as a masking layer for the chromium and fused silica etches. The remaining monomer and chromium are then removed to create a conformal replicate template. (c) 2007 Published by Elsevier B.V.