Use of highly EUV absorbing element in chemically amplified resist

Advanced Lithography Pub Date : 2023-05-01 DOI:10.1117/12.2657982

Yejin Ku, Han Bit Park, Gayoung Kim, Jin-Kyun Lee, Jong-Won Lee, Byeong-Gyu Park, Sangsul Lee

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Abstract

We propose a method for easily determining the extent of solubility change of chemically amplified resist (CAR) films with different types of extreme UV (EUV)-absorbing elements. The concentration of acid molecules depends on the production yield of secondary electrons, and it affects the deprotection reaction rate in the resist and ultimately the residual resist film thickness. Materials capable of increasing EUV absorption were prepared by incorporating tin, iodine, or hydrogen in a model fluoroalkylated copolymer. A CAR film containing a proton exchange component was spin-coated on a substrate, and a thin film composed of one of the fluoroalkylated copolymers containing elements and a photoacid generator was cast thereon. Under EUV irradiation, the iodine containing copolymer increased the decomposition rate of the CAR film, unlike the case of the tin- or hydrogen containing copolymer. For practical use, we prepared an iodinated sensitizer based on a CT contrast agent, iohexol, for utilizing it as an EUV sensitizer in an EUV lithography (EUVL) experiment, and it was found that the iohexol-based iodinated sensitizer could simultaneously act as a sensitizer and a base quencher. These results show that iodinated compounds can help enhance the patterning performance of CARs in EUVL.

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在化学放大抗蚀剂中使用高EUV吸收元件

我们提出了一种测定不同类型极紫外吸收元素的化学放大抗蚀剂(CAR)薄膜溶解度变化的简便方法。酸分子的浓度取决于二次电子的产率，它影响抗蚀剂中的脱保护反应速率，最终影响残余抗蚀剂膜厚度。通过在模型氟烷基化共聚物中加入锡、碘或氢，制备了能够增加EUV吸收的材料。将含有质子交换组分的CAR薄膜自旋涂覆在衬底上，并在其上浇铸由含元素的氟烷基化共聚物之一和光酸发生器组成的薄膜。在极紫外光照射下，含碘共聚物提高了CAR膜的分解速率，而不像含锡或含氢共聚物。在实际应用中，我们制备了一种基于CT造影剂碘己醇的碘化敏化剂，并将其作为EUV光刻(EUVL)实验中的EUV敏化剂，发现碘化敏化剂可以同时作为敏化剂和碱猝灭剂。这些结果表明，碘化化合物有助于提高car在EUVL中的图形化性能。

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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Advanced Lithography

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