Abstract— The manufacture of large‐area arrays of thin‐film transistors on polymer substrates using roll‐to‐roll (R2R) processes exclusively is being developed. Self‐aligned imprint lithography (SAIL) enables the patterning and alignment of submicron‐sized features on meter‐scaled flexible substrates in the R2R environment. SAIL solves the problem of precision interlayer registry on a moving web by encoding all the geometry information required for the entire patterning steps into a monolithic three‐dimensional imprint with discrete thickness modulation. The pre‐aligned multiple‐step mask structure maintains its alignment regardless of subsequent substrate distortion. Challenges are encountered in relation to the novel nature of using flexible substrates and building toolsets for the R2R processing. In this paper, methods of the SAIL process, the resulting active‐matrix backplanes, the trajectory of SAIL process development, and the remaining issues for production are presented.
HP has previously demonstrated the roll-to-roll (R2R) fabrication of active-matrix display backplanes using the SelfAligned Imprint Lithography (SAIL) process. This approach permits a single imprint step to create a multi level mask comprising all patterns required for subsequent etching steps, obviating the need for multiple alignment steps. In this paper the imprint lithography technique and aspects of SAIL are reviewed. New work using imprint processing to generate structural templates, with aspect ratios approaching 6:1, for fluid containment will be presented. Arrays of transparent well structures, formed on a flexible transparent substrate provide the basis for a color display filter matrix that is filled by inkjet deposition of pigmented resins. A primary benefit of this approach is precise color pattern definition. A separation between primary color fields of 4 microns is realized without risk of color mixing or overlap. Components patterned with high absolute precision by imprint lithography were readily integrated with parts from other sources to yield flexible color reflective display demonstrator panels. This work highlights the flexibility of imprint processing and its suitability for use with a wide variety of materials and in differing applications.
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