AI Article Synopsis
- MEMS (Microelectromechanical systems) are gaining popularity for various electronic applications, serving as sensors and actuators in devices like smartphones and self-driving cars.
- Although silicon is the primary material for MEMS due to its structural properties, MEMS fabrication is less standardized compared to traditional microelectronics, which can hinder innovation.
- 3D printing, despite its limitations in resolution and compatible materials, shows promise for creating new MEMS structures and enabling faster, cost-effective production of existing systems.
Article Abstract
Microelectromechanical systems (MEMS) are of high interest for recent electronic applications. Their applications range from medicine to measurement technology, from microfluidics to the Internet of Things (IoT). In many cases, MEMS elements serve as sensors or actuators, e.g., in recent mobile phones, but also in future autonomously driving cars. Most MEMS elements are based on silicon, which is not deformed plastically under a load, as opposed to metals. While highly sophisticated solutions were already found for diverse MEMS sensors, actuators, and other elements, MEMS fabrication is less standardized than pure microelectronics, which sometimes blocks new ideas. One of the possibilities to overcome this problem may be the 3D printing approach. While most 3D printing technologies do not offer sufficient resolution for MEMS production, and many of the common 3D printing materials cannot be used for this application, there are still niches in which the 3D printing of MEMS enables producing new structures and thus creating elements for new applications, or the faster and less expensive production of common systems. Here, we give an overview of the most recent developments and applications in 3D printing of MEMS.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7231376 | PMC |
| http://dx.doi.org/10.3390/mi11040434 | DOI Listing |
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