Microfabrication and Characterization of Micro-Stereolithographically 3d Printed, and Double Metallized Bioplates with 3D Microelectrode Arrays for In-Vitro Analysis of Cardiac Organoids
Author:
Affiliation:
1. University of Central Florida,USA
Publisher
IEEE
Link
http://xplorestaging.ieee.org/ielx7/10052111/10052113/10052547.pdf?arnumber=10052547
Reference16 articles.
1. Experimental and Modeling Based Investigations of Process Parameters on a Novel, 3D Printed and Self-Insulated 24-Well, High-Throughput 3D Microelectrode Array Device for Biological Applications;castro;Journal of Microelectromechanical Systems,2022
2. Investigation of the Effect of Printing Angle and Device Orientation on Micro-Stereolithographically Printed, and Self-insulated, 24-well, High-Throughput 3D Microelectrode Arrays
3. A flexible 3-dimensional microelectrode array for in vitro brain models
4. 3D Printing, Ink Casting and Micromachined Lamination (3D PICLμM): A Makerspace Approach to the Fabrication of Biological Microdevices
5. Interfacing Electrogenic Cells with 3D Nanoelectrodes: Position, Shape, and Size Matter
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