Plasma-Enhanced Atomic Layer Deposition Sealing Property on Extreme Low-k Film with k = 2.0 Quantified by Mass Metrology

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概要

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• We have investigated plasma-enhanced atomic layer deposition (PEALD) SiN pore-sealing film formation and diffusion behavior on highly porous SiOCH films. Mass measurement revealed the diffusion of the precursor used in PEALD into pores of SiOCH films, which was enhanced for higher-porosity SiOCH films. The diffusion of the precursor into the pores was reduced by applying UV-assisted restoration treatment before the pore-sealing process, which helped the formation of hermetic pore-sealing films. The results indicated that a 1-nm-thick SiN film was sufficient to seal the surface of the restored SiOCH film with k = 2.0. It was found that the decrease in k due to the pore-sealing deposition was as small as 0.02. The results indicated that the sequential application of UV-assisted restoration and PEALD-SiN pore sealing is a promising method of introducing the use of highly porous SiOCH films with k = 2.0 into interconnect integration.

• 2013-05-25

著者

• Kobayashi Akiko

  ASM, Tama, Tokyo 206-0025, Japan

• Kobayashi Nobuyoshi

  ASM, Tama, Tokyo 206-0025, Japan

• Kimura Yosuke

  ASM, Tama, Tokyo 206-0025, Japan

• Matsushita Kiyohiro

  ASM, Tama, Tokyo 206-0025, Japan

• Ditmer Gary

  Metryx Ltd., Bristol BS32 4SH, U.K.

• Ishikawa Dai

  ASM, Tama, Tokyo 206-0025, Japan

• Nakano Akinori

  ASM, Tama, Tokyo 206-0025, Japan

• Kiermasz Adrian

  Metryx Ltd., Bristol BS32 4SH, U.K.

関連論文

• Impact of Hydrocarbon Control in Ultraviolet-Assisted Restoration Process for Extremely Porous Plasma Enhanced Chemical Vapor Deposition SiOCH Films with k = 2.0 (Special Issue : Advanced Metallization for ULSI Applications)
• Plasma-Enhanced Atomic Layer Deposition Sealing Property on Extreme Low-k Film with k = 2.0 Quantified by Mass Metrology

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