碳掺杂氧化物的薄膜性能及集成性能

Hichem MSaad
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引用次数: 0

摘要

只提供摘要形式。半导体行业已经见证了铜基互连和低介电常数绝缘体在130nm节点器件上的成功引入。90nm节点器件的出现导致了第一代碳掺杂介电薄膜的引入。进一步的结垢将需要具有更低介电常数的材料,这加速了第二代具有嵌入孔隙的碳掺杂氧化物的发展。虽然在硅基电介质中添加碳降低了绝缘体的介电常数,但碳掺杂也可能导致这种薄膜表面性能的退化。通常,已知表面的碳富集会引起表面湿润特性的问题。此外,富碳表面形成的界面的机械强度可能比同碳表面差。集成互连结构中大量化学和形态不同的材料增加了机械结构失效的可能性。因此,详细了解材料的基本性质和碳掺杂材料在后续加工过程中的行为是至关重要的。本文将介绍不同代掺杂碳氧化物的工艺和薄膜性能表征。本文将讨论这些薄膜的综合性能及其与加工参数和材料物理性能的关系。讨论了新的加工技术,使先进的低介电常数材料的实现,而不牺牲这种薄膜的大批量可制造性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Film properties and integration performance of carbon doped oxides
Summary form only given. The semiconductor industry has witnessed a successful introduction of copper based interconnects and low permittivity insulators with 130nm node devices. The advent of 90nm node devices has led to the introduction of first generation of carbon doped dielectric films. Further scaling will require materials with lower permittivity and this has accelerated the development of a second generation of carbon doped oxides with imbedded porosity. While the addition of carbon to a silicon based dielectric lowers the permittivity of the insulator, carbon doping may also lead to degradation in the surface properties of such films. Frequently, carbon enrichment at surfaces is known to cause issues with the wetting characteristics of the surface. In addition, the mechanical strength of interfaces formed with carbon enriched surfaces may be poor compared to congruent surfaces. The high number of chemically and morphologically different materials in the integrated interconnects structure increase the possibility of mechanical structural failure. A detailed understanding of the basic material properties and the behavior of the carbon doped materials during subsequent processing is therefore of prime importance. This paper will present an overview of process and film property characterization of different generations of carbon doped oxides. Integration properties of these films and correlation to processing parameters and physical properties of the materials will be discussed. Novel processing techniques are discussed that enable the implementation of advanced low dielectric constant materials without sacrificing the high volume manufacturability of such films.
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