Filtration condition study for enhanced microbridge reduction

Lithography Asia Pub Date : 2009-12-03 DOI:10.1117/12.837664

T. Umeda, Fumi Watanabe, S. Tsuzuki, T. Numaguchi

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引用次数: 14

Abstract

Filtration products utilizing Nylon 6,6 membrane technology have demonstrated effectiveness in reducing microbridge defects in DUV photoresist patterning. The effects of fluid flow characteristics on defect reduction using a point-of-use Nylon 6,6 filtration product are explored. Lower filtration pressure and longer contact time were found to enhance the removal of gel-like microbridge defect precursors during point-of-use filtration of photoresist polymer solution. A kinetic study of high-pressure filtration, where a strong dependency of gel removal on contact time is observed, revealed the gel-like precursors are adsorbed to a greater extent at sites of polar Nylon 6,6 throughout the membrane depth. A study of gel capturing position by ICP-MS for low-pressure filtration, where gel removal is independent of contact time, revealed the gels are captured at the inlet portion of the filter, due to smaller transportation force, as compared to deeper into the filter media depth. These findings will be very useful both in optimizing filter operating procedures and in the development of next-generation filtration products, ultimately contributing toward reduced defectivity and increased yield within next-generation lithography processes.

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增强微桥还原的过滤条件研究

利用尼龙6,6膜技术的过滤产品在减少DUV光刻胶图案中的微桥缺陷方面已经证明了有效性。探讨了使用尼龙6,6点过滤产品时，流体流动特性对减少缺陷的影响。在光刻胶聚合物溶液的使用点过滤过程中，发现较低的过滤压力和较长的接触时间可以增强凝胶状微桥缺陷前体的去除。高压过滤的动力学研究表明，凝胶去除对接触时间有很强的依赖性，揭示了凝胶状前驱体在整个膜深度的极性尼龙6,6位点被更大程度地吸附。通过ICP-MS对低压过滤中凝胶捕获位置的研究，凝胶的去除与接触时间无关，表明凝胶在过滤器的入口部分被捕获，因为与深入过滤介质深度相比，由于较小的输送力。这些发现将在优化过滤器操作程序和下一代过滤产品的开发中非常有用，最终有助于减少下一代光刻工艺中的缺陷和提高产量。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Lithography Asia

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