UV cure impact on robust low-k with sub-nm pores and high carbon content for high performance Cu/low-k BEOL modules

N. Inoue, F. Ito, H. Shobha, S. Gates, E. T. Ryan, K. Virwani, N. Klvmko, A. Madan, L. Tai, E. Adams, S. Cohen, E. Liniger, C. Hu, Y. Mignot, A. Grill, T. Spooner
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引用次数: 4

Abstract

UV cure on robust low-k with sub-nm pore and high carbon content (R-ELK=Robust ELK) was studied to enhance the modulus of the film. UV cure helps to create Si-CH2-Si bridging bond, which plays a role to enhance the modulus. UV cure does not affect the advantage of low PID (plasma-induced damage) and it was confirmed by Cint (interconnect capacitance) measurement for 80 nm pitch interconnect. Besides, UV cured R-ELK demonstrated high TDDB and EM reliability, with lifetime similar to the mature ULK baseline. High TDDB reliability with further dimensional scaling was also confirmed for the test structure with 20 nm spacing.
UV固化对高性能Cu/低k BEOL模块的低k孔和高碳含量的影响
为了提高薄膜的模量,对亚纳米孔高碳含量的鲁棒低k (R-ELK=鲁棒ELK)进行了紫外光固化研究。紫外光固化有助于形成Si-CH2-Si桥接键,从而起到提高模数的作用。紫外线固化不影响低等离子体损伤(PID)的优势,并通过测量80nm间距互连的Cint(互连电容)证实了这一点。此外,UV固化的R-ELK具有较高的TDDB和EM可靠性,其寿命与成熟的ULK基线相似。对于间距为20 nm的测试结构,进一步的尺寸缩放也证实了较高的TDDB可靠性。
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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