High-resolution 3D printing magnetically-active microstructures using micro-CLIP process

Guangbin Shao; Henry Oliver T. Ware; Xiangfan Chen; Longqiu Li; Cheng Sun

doi:10.1117/12.2514878

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27 March 2019 High-resolution 3D printing magnetically-active microstructures using micro-CLIP process

Guangbin Shao, Henry Oliver T. Ware, Xiangfan Chen, Longqiu Li, Cheng Sun

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Proceedings Volume 10969, Nano-, Bio-, Info-Tech Sensors and 3D Systems III; 109690M (2019) https://doi.org/10.1117/12.2514878
Event: SPIE Smart Structures + Nondestructive Evaluation, 2019, Denver, Colorado, United States

Abstract

Magnetic-driven micro-robotic devices have shown promising potential in enabling applications in micromanipulation, biosensing, targeted drug delivery, and minimally invasive surgery. However, the fabrication of miniaturized magnetic structures with complex geometries has remained the major technical obstacle. In this study, we report the development of a new magnetically-active photopolymerizable resin comprises poly (ethylene glycol) diacrylate monomer, Fe₃O₄ magnetic nanoparticles, photoinitiator, and other functional additives. Micro-continuous liquid interface production (micro-CLIP) 3D printing process was employed to realize high-resolution and high-speed fabrication of complex structures. The key characteristic properties of resin along with the matching process conditions were investigated experimentally, which allows for establishing the set of optimal fabrication conditions in fabricating magnetic microactuators towards potential applications.

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Guangbin Shao, Henry Oliver T. Ware, Xiangfan Chen, Longqiu Li, and Cheng Sun "High-resolution 3D printing magnetically-active microstructures using micro-CLIP process", Proc. SPIE 10969, Nano-, Bio-, Info-Tech Sensors and 3D Systems III, 109690M (27 March 2019); https://doi.org/10.1117/12.2514878

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KEYWORDS

Magnetism

3D printing

Additive manufacturing

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