Integrated Fabrication of Micro- and Nano-scale Structures for Silicon Devices Enabled by Metal-assisted Chemical Etch

Released on by Raul Marcel Lema Galindo
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  • Integrated Fabrication of Micro- and Nano-scale Structures for Silicon Devices Enabled by Metal-assisted Chemical Etch Book Detail

  • Author : Raul Marcel Lema Galindo
  • Release Date : 2021
  • Publisher :
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  • Pages : 0
  • ISBN 13 :
  • File Size : 28,28 MB
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Integrated Fabrication of Micro- and Nano-scale Structures for Silicon Devices Enabled by Metal-assisted Chemical Etch by Raul Marcel Lema Galindo PDF Summary

Book Description: Silicon device manufacturing, at both the micro and nanoscales, is largely performed using plasma etching techniques such as Reactive Ion Etching. Deep Reactive Ion Etching (DRIE) can be used to create high-aspect ratio nanostructures in silicon. The DRIE process suffers from low throughput, only one wafer can be processed at a time; high cost, the necessary tools and facilities for implementation are expensive; and surface defects such as sidewall taper and scalloping as a consequence of the cycling process required for high-aspect-ratio manufacturing. A potential solution to these issues consists of implementing wet-etching techniques, which do not require expensive equipment and can be implemented at a batch scale. Metal Assisted Chemical Etch is a wet-etch process that uses a metal catalyst to mediate silicon oxidation and removal in a diffusion-based process. This process has been demonstrated to work for both micro and nanoscale feature manufacturing on silicon substrates. To date, however, a single study aimed at identifying experimental conditions for successful multi-scale (integrated micro- and nanoscale) manufacturing is lacking in the literature. This mixed micro-nanoscale etching process (IMN-MACE) can enable a wide variety of applications including, for example, development of point-of-care medical diagnostic devices which rely on micro- and nano-fluidic sample processing, a growing field in the area of preventive medicine. This work developed multi-scale MACE by a systematic experimental exploration of the process space. A total of 54 experiments were performed to study the effects of the following process parameters: (i) surface silicon dioxide, (ii) metal catalyst stack, (iii) etchant solution concentration, and (iv) pre-etch sample preparation. Of these 54 experiments, 18 experiments were based on exploring nanopatterning of 100nm pillars, and the remaining 36 explored the fabrication of micropillars with a diameter between 10μm and 50μm in 5μm increments. It was determined that a single catalyst stack consisting of ~3nm Ag underneath a ~15nm Au metal layer can be used to etch high quality features at both the micro and nanoscales on a silicon substrate pre-treated with hydrogen fluoride to remove the native oxide layer from the surface. Future steps for micro-nano scale integration were also proposed

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