Solution Processable Point-of-care Optoelectronic Device for Procalcitonin Sensing
Current Bio: Jasmine is a first year MS/PhD at Berkeley in EECS.
Haas Scholars Project: One focus of point-of-care devices is to improve accessibility of essential diagnostic tools by utilizing miniaturized, accurate and low-cost optical systems. Printed organic optoelectronics are one such technology that have the potential to improve the optical sensing schemes of these systems. Because organic optoelectronics are processed in solution, they can be easily scaled for large-area manufacturing and roll-to-roll processing, leading to low-production costs. Jasmine aims to design a point-of-care device utilizing printed optoelectronics for fluorescent biomarker sensing and demonstrate the efficacy of this system on procalcitonin, which has been shown to be a useful biomarker for managing antibacterial treatment. Her goal is to demonstrate the use of printed optoelectronics for point-of-care applications as a cheap alternative to current optical sensing systems
- Major: Bioengineering major, Electrical Engineering & Computer Sciences minor
- Mentor: Ana Arias, Electrical Engineering & Computer Sciences