Quantifying Shear Properties of Nano-Confined Liquids Using Vertical Objective Ellipsometric Microscopy

KATO Tsuyohi, FUKUZAWA Keji, AZUMA Noaki, Itoh Shintaro, ZHANG Hedong, NAKAGAWA Masaru, NAWATA Ryo, SEKI Junichi, ASANO Toshiya

doi:10.1299/jsmeiip.2023.iipa-6-15

Bibliographic Information

Other Title

垂直観測型エリプソメトリー顕微鏡によるナノ閉じ込めされた液体のせん断特性の定量化

Abstract

<p>To elucidate the cause of increase in shear resistance in alignment process for nano imprint lithography (NIL), by using vertical-objective-type ellipsometric microscopy (VEM) combined with a micro-cylinder structure and gap feedback-control, shear response of nano-confined liquid film mimicking a NIL resist film were measured. The three kinds of samples were prepared; monomer, monomer with release agent, and monomer with polymerization initiator. The increase in the shear resistance force was not detected with the monomer alone, but with the addition of additives. The shear response waveforms indicated that the resist solidifies at nanometer gaps and may melt above the yield shear force. These results suggest that the additive is unevenly distributed near the sliding solid surfaces and changes the physical properties of the monomer near the solid surfaces, resulting in a significant increase in shear resistance force at the nano gaps. This mechanism is thought to be responsible for the increased shear resistance force in the NIL alignment process as well.</p>

Journal

The Proceedings of the Conference on Information, Intelligence and Precision Equipment : IIP

The Proceedings of the Conference on Information, Intelligence and Precision Equipment : IIP 2023 (0), IIPA-6-15-, 2023

The Japan Society of Mechanical Engineers

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