Optimization of Reactive-Ion Etching (RIE) parameters to maximize the lateral etch rate of silicon using SF6/N2 gas mixture: An alternative to etching Si in MEMS with Au components

Kazar Mendes, Munique
Ghouila-Houri, Cécile
Hammami, Serria
Arnoult, Thomas
Pernod, Philippe
Talbi, Abdelkrim

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Publication date

January 2021

DOI

10.1016/j.matlet.2020.129058

Publisher

Elsevier BV

Abstract

International audienceIn this work, the effects of the N2 addition to the SF6 plasma used in the isotropic silicon etching of Microelectromechanical systems (MEMS) with Au components are investigated. A four-variables Doehlert design was implemented for optimizing the etching parameters (power, pressure, gas flow rate, and N2 /SF6 ratio) to maximize the lateral etch rate of Si using SF6 /N2 gas mixture. The optimized etch condition founded for a lateral etch rate of 1.8 mm/min was: power = 143 W, chamber pressure = 86 mTorr, flow rate = 22 sccm, and N2 /SF6 ratio = 0.1. Furthermore, it was demonstrated that the established etching process avoids the structure damage of Au components

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Optimization of Reactive-Ion Etching (RIE) parameters to maximize the lateral etch rate of silicon using SF6/N2 gas mixture: An alternative to etching Si in MEMS with Au components

Abstract

Extracted data

Optimization of Reactive-Ion Etching (RIE) parameters to maximize the lateral etch rate of silicon using SF6/N2 gas mixture: An alternative to etching Si in MEMS with Au components

Abstract

Extracted data

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