Matthew T. Vangunten, Uriah J. Walker, Han G. Do, Kyle N. Knust
We demonstrate that the simplicity of preparing functional microfluidic devices using 3D printing is well suited for undergraduate laboratories. Educational experiments utilizing non-paper-based microfluidic devices are often relegated to well-equipped, resource rich universities because traditional fabrication techniques require specialized and expensive equipment. Microfluidics prepared with stereolithography 3D printing provides a simplified and lower cost method of fabrication, while maintaining adequate resolution and performance for teaching laboratories. The applicability of stereolithography 3D-printed microfluidic devices for chemical education is demonstrated with a series of experiments utilizing colorimetric indicators to introduce laminar flow, diffusional mixing, and parabolic flow at the microscale. A microfluidic gel electrophoresis separation was also performed to demonstrate the low reagent requirements of microfluidics.
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