5 Must Know Facts For Your Next Test

1. Dry etching is preferred in MEMS/NEMS fabrication because it provides better control over feature dimensions and shapes compared to wet etching.
2. This process can be used on a variety of materials including silicon, metals, and dielectrics, making it versatile for different applications.
3. Anisotropic etching is a significant advantage of dry etching, allowing for vertical sidewalls which are essential for creating complex three-dimensional structures.
4. Dry etching processes can be highly selective, meaning they can preferentially etch one material over another without affecting adjacent layers.
5. The integration of dry etching with photolithography enhances the capability to create intricate patterns and features required for advanced devices.

Review Questions

• How does dry etching improve the precision of microfabrication processes compared to traditional wet etching methods?
  • Dry etching improves precision by using gases or plasma to remove material, allowing for better control over feature sizes and shapes. Unlike wet etching, which can lead to isotropic removal and undercutting, dry etching techniques provide anisotropic etching that preserves vertical sidewalls. This precision is crucial for creating the complex geometries often required in micro and nano devices.
• Discuss the role of dry etching in the development of drug delivery systems and smart prosthetics.
  • Dry etching plays a pivotal role in fabricating components for drug delivery systems and smart prosthetics by allowing the creation of microstructures that can control fluid flow or interact with biological environments. The high precision of dry etching enables the manufacture of tiny channels and reservoirs necessary for drug dispensing mechanisms, while also supporting the development of sensors and actuators in prosthetic devices. This precision ensures that the devices function effectively within biological systems.
• Evaluate how advancements in dry etching technologies could influence future developments in MEMS/NEMS applications.
  • Advancements in dry etching technologies, such as improved selectivity and the ability to work with new materials, could significantly enhance the capabilities of MEMS/NEMS applications. By enabling finer resolution and complex geometries, these advancements would facilitate the creation of more sophisticated devices with multifunctional capabilities. For instance, as we push toward smaller scales and integrate more functionalities into single devices, enhanced dry etching processes will be critical in driving innovation across fields like healthcare, consumer electronics, and environmental monitoring.

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