锥形深反应离子刻蚀:方法与表征

TRANSDUCERS 2007 - 2007 International Solid-State Sensors, Actuators and Microsystems Conference Pub Date : 2007-06-10 DOI:10.1109/SENSOR.2007.4300175

N. Roxhed, P. Griss, G. Stemme

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引用次数: 9

摘要

本文提出了一种利用深度反应离子蚀刻在硅中蚀刻锥形侧壁的方法。该方法是基于博世法各向异性刻蚀和各向同性干刻蚀之间的连续切换。通过控制各向异性和各向同性刻蚀过程的刻蚀深度，可以将侧壁角控制在一个相对较大的范围内，从0度(垂直)到36度。锥形侧壁在微加工工艺中很有用，例如3d结构的金属涂层(例如用于电气连接或过孔)，模具制造或作为补偿可重入蚀刻的工具。该工艺为硅深刻蚀中调整侧壁角提供了一种简便的方法。该蚀刻方案在单个蚀刻系统中运行，并且可以在大多数制造商的icp系统中实施。该方法也可以与标准博世工艺结合使用，如本文所示，该方法用于补偿高面外台面结构的可重入蚀刻。

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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Tapered Deep Reactive Ion Etching: Method and Characterization

This work presents a method for etching tapered sidewalls in silicon using deep reactive ion etching. The method is based on consecutive switching between anisotropic etching using the Bosch process and isotropic dry etching. By controlling the etch depths of the anisotropic and isotropic etch sessions, the sidewall angle can be controlled over a relatively large range, from 0deg (straight vertical) to 36deg. Tapered sidewalls are useful in microfabrication processes such as metal coating of 3D-structures (e.g. for electrical connections or vias), mold tool fabrication or as a tool to compensate for reentrant etching. The process represents an easy method to tailor the sidewall angle in deep etching of silicon. The etch scheme is run in a single etch system and can be implemented in ICP-systems of most manufactures. The method can also be used in conjunction with the standard Bosch process as demonstrated herein, where the method was applied to compensate for reentrant etching of high out-of-plane mesa-structures.

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TRANSDUCERS 2007 - 2007 International Solid-State Sensors, Actuators and Microsystems Conference

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