ECE Seminar (EE290)

Speaker Name: 
Prof. Brian T. Cunningham
Speaker Title: 
Willett Professor, Director
Speaker Organization: 
Department of Electrical and Computer Engineering at the University of Illinois at Urbana-Champaign, Micro and Nanotechnology Laboratory
Start Time: 
Monday, October 21, 2019 - 10:40am
End Time: 
Monday, October 21, 2019 - 11:40am
Location: 
E2-192
Organizer: 
ECE

Title

Digital Resolution Proteomic and Genomic Liquid Biopsy using Plasmonic-Photonic Hybrid Resonators

 

Abstract

The strong electromagnetic coupling between plasmonic nanoparticles and photonic crystal surfaces is used as the basis for an ultrasensitive detection platform technology called “Activate Capture + Digital Counting” (AC+DC) that offers single step, isothermal, rapid, 100 aM detection of protein and nucleic acid target molecules.  Because AC+DC operates at room temperature and does not utilize wash steps or enzymatic amplification, it is well suited for applications that include point of care diagnostics, frequent monitoring of the effects of therapy, and quantitative analysis of biomarkers in bodily fluids.  The talk will describe the underlying electromagnetic and biochemisty principles of the AC+DC approach, and show representative applications in cancer genomic diagnostics and viral load monitoring.

 

Bio

Brian T. Cunningham is the Willett Professor of Engineering in the Department of Electrical and Computer Engineering at the University of Illinois at Urbana-Champaign, where he also serves as the Director of the Micro and Nanotechnology Laboratory.  His research interests include biophotonics, bionanophotonics, micro/nanofabrication processes & materials, BioMEMS, lab-on-a-chip, microfluidics, biosensing, and applications in drug discovery, health diagnostics, mobile point-of-use detection systems, life science research, environmental monitoring, animal health, and food safety.  Prof. Cunningham’s key technical contributions and achievements stem from his invention and application of nanostructured photonic surfaces that efficiently couple electromagnetic energy into biological analytes, enabling high signal-to-noise sensing of materials that include small molecules, nucleic acids, proteins, virus particles, cells, and tissues.  He has made key foundational contributions to the application of mobile devices (such as smartphones) to point-of-use detection systems that provide equivalent capabilities to laboratory-based instruments.  He is a Fellow of IEEE, OSA, AAAS, NAI, and AIMBE.  

 

 

Event Type: 
Event