电子束和极紫外光刻用铝基杂化抗蚀剂的分子层沉积

A. Ravi, Jingwei Shi, Jacqueline Lewis, S. Bent
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摘要

随着光刻技术在缩小微电子器件能力方面的进步,对改进的抗蚀剂材料的需求,特别是对极紫外(EUV)的需求,变得越来越迫切。在这项工作中,我们研究了al基杂化薄膜抗蚀剂(称为“alucone”)的分子层沉积(MLD),扩展了我们之前测试hf基杂化薄膜“hafnicone”作为EUV抗蚀剂的研究。铝酮是用金属前体三甲基铝和有机前体乙二醇在100℃下生长的。与hafnicone一样,alucone的行为是一种负色调抗蚀剂,可以分辨50纳米的线宽,尽管初步数据表明alucone的线模式比hafnicone的线模式更清晰。以3 M HCl为显影剂时,hafnicone的灵敏度为400 μC/cm2,而alucone的灵敏度为4800 μC/cm2 (0.125 M HCl)。我们对铝酮的研究为MLD薄膜的结构特征提供了新的见解,可以导致期望的euv响应行为。这一发现可能会加速用于电子束和EUV光刻的气相沉积无机抗蚀剂的发展。
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Molecular layer deposition of an Al-based hybrid resist for electron-beam and EUV lithography
As lithographic techniques advance in their capabilities of shrinking microelectronics devices, the need for improved resist materials, especially for extreme ultraviolet (EUV), has become increasingly pressing. In this work, we study the molecular layer deposition (MLD) of an Al-based hybrid thin film resist, known as “alucone,” extending our previous research that tested the Hf-based hybrid thin film “hafnicone” as an EUV resist. Alucone is grown at 100 ºC using the metal precursor trimethylaluminum and the organic precursor ethylene glycol. Like hafnicone, alucone behaves as a negative tone resist that can resolve 50-nm line widths, though preliminary data suggest that alucone’s line patterns are more sharply defined than those of hafnicone. Whereas hafnicone’s sensitivity is 400 μC/cm2 using 3 M HCl as the developer, alucone’s sensitivity is not yet as good (4800 μC/cm2 using 0.125 M HCl). Our study of alucone offers new insight into structural features of an MLD film that can lead to desired EUV-responsive behavior. This insight may accelerate the development of vapor-deposited inorganic resists for use in electron-beam and EUV lithography.
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