氟烷基化锡氧纳米团簇作为极紫外光刻的候选抗蚀剂

Yejin Ku, Hyungju Ahn, Jin-Kyun Lee, Jiho Kim, Byeong-Gyu Park, Sangsul Lee, Y. Jang, B. Jung, C. Koh, T. Nishi, Hyun-woo Kim
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摘要

极紫外光(EUV)光刻技术正在进入高端集成电路芯片的全面生产阶段。这种转变为学术界和工业界的研究人员提供了充分的动力,提出新的化学物质,有助于缓解EUV光刻的分辨率线边缘粗糙度和灵敏度权衡困境。我们也对在EUV下工作的碳氟键的自由基化学非常感兴趣,并探索了其作为实现新型EUV抗蚀剂平台的适用性。虽然经检查,使用氟化小分子和聚合物的化学概念是可行的,但它需要在图案分辨率和灵敏度方面进行升级。最近,我们成功地将基于自由基的策略扩展到锡氧纳米簇抗蚀剂的概念。可溶的氟化锡氧簇可以制备,并将其从含氟溶液中浇铸成薄膜。当薄膜暴露在EUV辐射下时,它失去溶解度,从而形成负色调图像。在极紫外光刻条件下,薄膜可以被裁剪到10纳米或更小的尺寸特征。此外,它们在化学正交溶剂中的独特溶解度也使其能够在不固化的情况下建立由非氟化反应性聚合物下层组成的双层结构。叠片结构有助于提高灵敏度。这些结果提出了另一种在薄膜加工中具有独特能力的有趣的EUV抗蚀剂候选物。
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Fluoroalkylated tin-oxo nano clusters as resist candidates for extreme UV lithography
Extreme UV (EUV) lithography is entering full-scale production of high-end IC chips. This transition gives researchers in academia and industry ample motivation to propose new chemistries that will contribute to alleviating the resolution-line edge roughness-sensitivity trade-off dilemma of EUV lithography. We also have a great interest in the radical chemistry of carbon-fluorine bonds working under EUV and have explored its applicability as a platform for implementing novel EUV resists. While it was checked that the chemical concept is viable by using fluorinated small molecules and polymers, it needed to be upgraded in terms of patterning resolution and sensitivity. Recently, we extended successfully the radical-based strategy to the tin-oxo nano cluster resist concept. Soluble fluorinated tin-oxo clusters could be prepared, and they were cast into thin films from a fluorous solution. When the thin film was exposed to EUV radiation, it lost solubility, resulting in the formation of negative-tone images. Under an EUV lithographic condition, the thin film could be tailored down to 10 nm or smaller sized features. In addition, their unique solubility in chemically orthogonal solvents also enabled the build-up of a bilayer structure composed of a non-fluorinated reactive polymer underlayer without curing. The stacked film structure was found to be helpful for the sensitivity improvement. These results propose another interesting EUV resist candidate possessing unique capabilities in thin film processing.
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