膜净化技术减少聚合物溶液中的金属污染

P. Muralidhar, A. Ramirez, A. Wu, Lawrence Chen, Yamin Liu, Luxi Shen, Robert F. Blacksmith, Sabrina Wong, Matthew Melanson, A. Rudenko
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引用次数: 0

摘要

随着半导体制造的图形分辨率的提高,从光化学供应链中消除关键缺陷的需求也在增加。特别是,已知金属污染物会导致各种类型的缺陷,如锥体缺陷,从而导致显著的产量损失1。因此,控制金属污染物对这些下一代光刻工艺至关重要。先前的工作介绍了Purasol™LS2溶剂净化器,能够在各种光化学溶剂中进行卓越的金属还原2。目前的工作重点是光化学生态系统中关键的中间材料聚合物溶液的纯化。我们提供的数据详细说明了LS2净化器从聚(4-羟基苯乙烯)(PHS)聚合物溶液中去除金属的能力。通过一系列实验,研究了聚合物溶液中金属的去除效率与各种实验参数的关系。金属去除是用电感耦合等离子体质谱(电感耦合等离子体质谱)测量定量。此外,我们还提供了客户数据,证明了LS2在净化聚合物溶液中减少降低良率性能的缺陷的有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Metallic contamination reduction in polymer solution using membrane purification technology
As the patterning resolution of semiconductor manufacturing increases, so does the need to remove critical defects from the photochemical supply chain. In particular, metallic contaminants have been known to lead to various types of defects such as cone defects that contribute to significant yield loss 1. Hence, control of metallic contaminants is critical for these next generation lithography processes. Previous work has introduced the Purasol™ LS2 solvent purifier, capable of superior metal reduction in a wide range of photochemical solvents 2. Current work focuses on purification of polymer solutions, a key intermediate material in the photochemical ecosystem. We present data detailing the ability of the LS2 purifier to remove metals from a poly-(4-hydroxystyrene) (PHS) polymer solution. Purifier membrane in coupons as well as an LS2 purifier device are used in a series of experiments to investigate the metal removal efficiency in the polymer solution as a function of various experimental parameters. Metal removal is quantified using ICP-MS (inductively coupled plasma mass spectroscopy) measurements. In addition, we also present customer data demonstrating the effectiveness of the LS2 in purifying polymer solutions to reduce defects that degrade yield performance.
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