测量聚合物薄膜通过平面模量的新技术

Proceedings. 4th International Symposium on Advanced Packaging Materials Processes, Properties and Interfaces (Cat. No.98EX153) Pub Date : 1998-03-15 DOI:10.1109/ISAPM.1998.664440

K. Patel, P. Kohl, S. Bidstrup-Allen

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引用次数: 10

摘要

聚合物薄膜在微电子领域广泛用作涂层和层间介质。在多层结构中，由于与相邻层的相互作用和溶剂蒸发引起的收缩，膜中产生的应力导致聚合物链在膜的平面上定向，从而导致膜的各向异性。各个方向的特性表征对于精确的电气和机械设计和建模至关重要。开发了一种原位测量聚合物薄膜通过平面(z)应力应变行为的新技术。采用平行板电容装置和交叉电极结构作为传感器，检测压缩条件下聚合物薄膜的介电常数和厚度变化。报道了8-14微米厚的陶氏化学环烯3022苯并环丁烯(BCB)薄膜的结果。发现介电常数随应力呈线性变化。利用这一结果，得到了贯穿平面的应力-应变曲线，并估计了模量。

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Novel technique for measuring through-plane modulus in thin polymer films

Polymer thin films are widely used as coatings and inter-level dielectrics in microelectronic applications. In multi-layer structures, stresses generated in the films due to interaction with adjacent layers and solvent evaporation induced shrinkage, cause the polymer chains to orient in the plane of the film resulting in anisotropic film properties. Characterization of properties in all directions is essential for accurate electrical and mechanical design and modeling. A new technique has been developed to measure, in situ, the through-plane (z) stress-strain behavior of thin polymer films. A parallel plate capacitor device and an interdigitated electrode structure were used as sensors to detect changes in dielectric constant and thickness of thin polymer films under compression. Results are reported for 8-14 micrometer thick, Dow Chemical Cyclotene 3022 benzocyclobutene (BCB) films. The dielectric constant was found to change linearly with stress. Using this result, the through-plane stress-strain curve was obtained and the modulus estimated.

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Proceedings. 4th International Symposium on Advanced Packaging Materials Processes, Properties and Interfaces (Cat. No.98EX153)

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