氧和水在等离子体增强化学气相沉积氮化硅薄膜中的渗透与沉积压力的关系

Journal of Vacuum Science and Technology Pub Date : 2023-10-31 DOI:10.1116/6.0003050

Masayuki Shiochi, Hiroshi Fujimoto, Hin Wai Mo, Keiko Inoue, Yusaku Tanahashi, Hiroyuki Hosomi, Takashi Miyamoto, Hiroshi Miyazaki, Chihaya Adachi

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摘要

在这项工作中，我们证明了SiNx薄膜(通过等离子体增强化学气相沉积制备)对水和氧的渗透性与沉积压力密切相关。通过动态二次离子质谱分析，我们证实了水只在氧化层中渗透到SiNx膜中。此外，正电子湮没寿命谱表明，较低沉积压力的SiNx膜具有较小的孔(自由体积孔)半径，在阻挡环境分子扩散或穿透方面更有效。该薄膜还被用作有机发光二极管的封装层;较低沉积压力的SiNx薄膜具有较高的封装性能。

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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Permeation of oxygen and water into a plasma-enhanced chemical vapor deposited silicon nitride film as function of deposition pressure

In this work, we demonstrate that the permeability of a SiNx thin film (prepared by plasma-enhanced chemical vapor deposition) to water and oxygen is closely related to the deposition pressure. By dynamic secondary ion mass spectrometry, we confirmed that water penetration occurs into the SiNx film only in the oxidized layer. Furthermore, positron annihilation lifetime spectroscopy indicated that a SiNx film with a lower deposition pressure provides a smaller pore (free volume hole) radius, which is more effective in terms of blocking ambient molecular diffusion or penetration. The SiNx films were also applied as an encapsulation layer for organic light-emitting diodes; SiNx films with a lower deposition pressure exhibited higher encapsulation properties.

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Journal of Vacuum Science and Technology

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