Abstract
We aimed to increase the processing area of the roll-to-roll (R2R) nanoimprint lithography (NIL) process for high productivity, using a long roller. It is common for a long roller to have bending deformation, geometric errors and misalignment. This causes the non-uniformity of contact pressure between the rollers, which leads to defects such as non-uniform patterning. The non-uniformity of the contact pressure of the conventional R2R NIL system was investigated through finite element (FE) analysis and experiments in the conventional system. To solve the problem, a new large-area R2R NIL uniform pressing system with five multi-backup rollers was proposed and manufactured instead of the conventional system. As a preliminary experiment, the possibility of uniform contact pressure was confirmed by using only the pressure at both ends and one backup roller in the center. A more even contact pressure was achieved by using all five backup rollers and applying an appropriate pushing force to each backup roller. Machine learning techniques were applied to find the optimal combination of the pushing forces. In the conventional pressing process, it was confirmed that pressure deviation of the contact area occurred at a level of 44%; when the improved system was applied, pressure deviation dropped to 5%.
Highlights
Nanoimprint lithography (NIL), which was introduced by Chou in 1995, has been regarded as a promising technology with outstanding advantages
Because it has potential to pattern on a large area by the application of a step-and-repeat process, NIL is considered a next-generation patterning process that can replace photolithography [3,4,5,6]
We propose a system in which the pushing forces are distributed by several backup rollers to the imprinting roller
Summary
Nanoimprint lithography (NIL), which was introduced by Chou in 1995, has been regarded as a promising technology with outstanding advantages. The two forces generate the contact pressure between the substrate and the pattern roller At this time, bending deformation of the imprinting roller occurs, which causes non-uniform pressure distribution on the contact area. An imprint pressing experiment was conducted to confirm the non-uniform pressure distribution on the contact area, the nip between the master roller and the imprinting roller, due to bending deformation during the actual pressing process. There is a limitation to using the conventional roller pressing system to eliminate contact pressure non-uniformity
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