The goal of this project is to develop a repeatable and accessible experimental protocol to quantify passive diffusion of solutes into microchannels with dead-end pores. Using inexpensive materials and readily accessible equipment, we produce channels with micropores with precision sufficient for microfluidic experiments. We load a pore with DI water and use a syringe pump to fill a perpendicular channel with a flourescein dye solution which slowly diffuses into the pore. We adapt the OpenFlexure microscope, a 3D-printed microscope which employs a Raspberry Pi as its core and is programmed via open-source software, to take photos of the experimental procedure. Microscope images are color-corrected using Python and then processed in Matlab to measure the gradient of concentration of dye as it penetrates into the microchannel dead-end pore thanks to molecular diffusion. The experimental method is benchmarked against a 1D model for passive diffusion of a solute into a dead-end pore of rectangular cross-section. We discuss merits and challenges of our experimental procedure and present plans for future research.

• This report represents the work of one or more WPI undergraduate students submitted to the faculty as evidence of completion of a degree requirement. WPI routinely publishes these reports on its website without editorial or peer review.

Creator

• Francis, Spencer

Publisher

• Worcester Polytechnic Institute

Identifier

• E-project-042623-151213
• 105421

Keyword

• 3D-printing
• microfluidics
• accessible methods

Advisor

• Bernardi, Francesca

Year

• 2023

Date created

• 2023-04-26

Resource type

• Major Qualifying Project

Major

• Physics

Source

• E-project-042623-151213

Rights statement

• In Copyright

Last modified

• 2023-06-22