AI Article Synopsis
- - The paper explores the use of inkjet printing technology for creating low-cost, scalable, and sensitive polymer-based inertial sensors, specifically a fully inkjet-printed polymeric accelerometer.
- - It details the manufacturing process, addressing challenges linked to the deposition of SU-8, and introduces a step-crosslinking method to enhance device shape and reduce printing defects.
- - The final accelerometer has an acceleration range of 0-0.7 g, resolution of 2 × 10 g, and a sensitivity of 6745 nm/g, demonstrating its potential for high-accuracy applications in measuring small accelerations.
Article Abstract
In the last few years, the manufacturing of microelectromechanical systems (MEMS) by means of innovative tridimensional and bidimensional printing technologies has significantly catalyzed the attention of researchers. Inkjet material deposition, in particular, can become a key enabling technology for the production of polymer-based inertial sensors characterized by low cost, high manufacturing scalability and superior sensitivity. In this paper, a fully inkjet-printed polymeric accelerometer is proposed, and its manufacturing steps are described. The manufacturing challenges connected with the inkjet deposition of SU-8 as a structural material are identified and addressed, resulting in the production of a functional spring-mass sensor. A step-crosslinking process allows optimization of the final shape of the device and limits defects typical of inkjet printing. The resulting device is characterized from a morphological point of view, and its functionality is assessed in performing optical readout. The acceleration range of the optimized device is 0-0.7 g, its resolution is 2 × 10 g and its sensitivity is 6745 nm/g. In general, the work demonstrates the feasibility of polymeric accelerometer production via inkjet printing, and these characteristic parameters demonstrate their potential applicability in a broad range of uses requiring highly accurate acceleration measurements over small displacements.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10672808 | PMC |
| http://dx.doi.org/10.3390/mi14112082 | DOI Listing |
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