Woo-Seong Che scite author profile

This paper presents a novel fabrication process for a tapered hollow metallic microneedle array using backside exposure of SU-8, and analytic solutions of critical buckling of a tapered hollow microneedle. An SU-8 mesa was formed on a Pyrex glass substrate and another SU-8 layer, which was spun on top of the SU-8 mesa, was exposed through the backside of the glass substrate. An array of SU-8 tapered pillar structures, with angles in the range of 3.1 •-5 • , was formed on top of the SU-8 mesa. Conformal electrodeposition of metal was carried out followed by a mechanical polishing using a planarizing polymeric layer. All organic layers were then removed to create a metallic hollow microneedle array with a fluidic reservoir on the backside. Both 200 µm and 400 µm tall, 10 by 10 arrays of metallic microneedles with inner diameters of the tip in the range of 33.6-101 µm and wall thickness of 10-20 µm were fabricated. Analytic solutions of the critical buckling of arbitrary-angled truncated cone-shaped columns are also presented. It was found that a single 400 µm tall hollow cylindrical microneedle made of electroplated nickel with a wall thickness of 20 µm, a tapered angle of 3.08 • and a tip inner diameter of 33.6 µm has a critical buckling force of 1.8 N. This analytic solution can be used for square or rectangular cross-sectioned column structures with proper modifications.

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A method for improved VCSEL packaging using MEMS and ink-jet technologies

Nallani

Chen

Hayes

et al. 2006

J. Lightwave Technol.

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Interfacial Microstructures and Characterization of the Titanium—Stainless Steel Friction Welds Using Interlayer Technique

Cheepu

Muthupandi

Venkateswarlu³

et al. 2018

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Micro-step position control with a simple voltage controller using low-cost micro-processor

Lee

Che

Ahn

2010

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Woo-Seong Che

A tapered hollow metallic microneedle array using backside exposure of SU-8

A method for improved VCSEL packaging using MEMS and ink-jet technologies

Interfacial Microstructures and Characterization of the Titanium—Stainless Steel Friction Welds Using Interlayer Technique

Micro-step position control with a simple voltage controller using low-cost micro-processor

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