A compact low-cost low-maintenance open architecture mask aligner for fabrication of multilayer microfluidics devices

Document Type

Article

Publication Date

7-1-2018

Abstract

A custom-built mask aligner (CBMA), which fundamentally covers all the key features of a commercial mask aligner, while being low cost and light weight and having low power consumption and high accuracy, is constructed. The CBMA is composed of a custom high fidelity light emitting diode light source, a vacuum chuck, a mask holder, high-precision translation and rotation stages, and high resolution digital microscopes. The total cost of the system is under $7500, which is over ten times cheaper than a comparable commercial system. It produces a collimated ultraviolet illumination of 1.8-2.0 mW cm-2 over an area of a standard 4-in. wafer, at the plane of photoresist exposure, and the alignment accuracy is characterized to be <3 μm, which is sufficient for most microfluidic applications. Moreover, this manuscript provides detailed descriptions of the procedures needed to fabricate multilayered master molds using our CBMA. Finally, the capabilities of the CBMA are demonstrated by fabricating two- A nd three-layer masters for micro-scale devices, commonly encountered in biomicrofluidic applications. The former is a flow-free chemical gradient generator, and the latter is an addressable microfluidic stencil. Scanning electron microscopy is used to confirm that the master molds contain the intended features of different heights.

Identifier

85052312744 (Scopus)

Publication Title

Biomicrofluidics

External Full Text Location

https://doi.org/10.1063/1.5035282

ISSN

19321058

Issue

4

Volume

12

Grant

1450182

Fund Ref

Gustavus and Louise Pfeiffer Research Foundation

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