利用热诱导曲率法对微电子聚合物进行热研究的进展

IF 2.3 3区 工程技术 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC
Benjamin Vavrille;Lionel Vignoud;Laurent-Luc Chapelon;Rafael Estevez
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引用次数: 0

摘要

热固性树脂是微电子领域的一种特殊材料。由于聚合物与氧化物、金属或硅等其他集成材料的热机械特性反差很大,因此会威胁到堆栈的机械完整性。了解聚合物的特性可以让制造商预见材料之间的兼容性,提高芯片组的可靠性。在双层尺度上,聚合物薄膜和硅衬底之间的特性不匹配会导致晶片整体弯曲,这种弯曲会随温度变化而变化。通过比较使用相同薄膜的两种不同基底的热诱导曲率,可以确定薄膜的双轴模量和热膨胀系数。这种方法不仅能检测聚合物交联的实现情况,还能估算它们的弛豫温度。在本文中,我们介绍了这种方法不仅能测量玻璃态的这些特性,还首次测量了橡胶态的这些特性。我们还说明了这种方法在检测和表征两种连续玻璃态时的熟练程度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Advances in the Thermal Study of Polymers for Microelectronics Using the Thermally Induced Curvature Approach
Thermoset resins are singular materials in the field of microelectronics. Because they exhibit a high contrast of thermomechanical properties with other integrated materials like oxides, metals or silicon, polymers can threaten the mechanical integrity of stacks. Knowing polymer properties allows manufacturers to foresee the compatibility between materials and improve chipsets reliability. At a bilayer scale, the properties mismatch between the polymer film and the silicon substrate causes an overall curvature of the wafer which evolves with temperature. By comparing the thermally induced curvature of two distinct substrates with the same film, the biaxial modulus and the coefficient of thermal expansion of the film can be determined. This method can not only check the achievement of the polymer cross-linking, but also estimates their relaxation temperatures. In this article, we present the ability of this method to, not only, measure those properties in the glassy state, but also, for the first time, in the rubbery state. We also illustrate the proficiency of this approach in detecting and characterizing two successive glassy states.
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来源期刊
IEEE Transactions on Semiconductor Manufacturing
IEEE Transactions on Semiconductor Manufacturing 工程技术-工程:电子与电气
CiteScore
5.20
自引率
11.10%
发文量
101
审稿时长
3.3 months
期刊介绍: The IEEE Transactions on Semiconductor Manufacturing addresses the challenging problems of manufacturing complex microelectronic components, especially very large scale integrated circuits (VLSI). Manufacturing these products requires precision micropatterning, precise control of materials properties, ultraclean work environments, and complex interactions of chemical, physical, electrical and mechanical processes.
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