Under-oil micro tissue system with computer-controlled mechanical cues
This project has been secured to protect intellectual property.
Login for More InformationOur team is working to recreate a piece of a microfluidic system that allows for mechanical cues to be performed without altering the temperature, humidity, and oxygen levels.
Project Overview
Our client has asked us to recreate a piece for an under-oil microfluidic system that works to decrease the risk of fluctuation of humidity, temperature, and oxygen.
Team Picture
Contact Information
Team Members
- Ryan Granowski - Team Leader
- Brendan Doherty - Communicator
- Alex Blaylock - BSAC
- Ethan Rao - Co-BWIG
- Samantha RusselHapp - Co-BWIG
- Jeremy Kolasa - BPAG
Advisor and Client
- Prof. Filiz Yesilkoy - Advisor
- Dr. Chao Li - Client
- Prof. Dave Beebe - Alternate Contact
Related Projects
- Spring 2023: Under-oil micro tissue system with computer-controlled mechanical cues
- Fall 2022: Under-oil micro tissue system with computer-controlled mechanical cues