Title :
CMOS compatible nanowires for biosensing
Author :
Stern, Eric ; Routenberg, David A. ; Vacic, Aleksandar ; Rajan, Nitin K. ; Criscione, Jason M. ; Park, Jason ; Fahmy, Tarek M. ; Reed, Mark
Author_Institution :
Dept. of Biomed., Yale Univ., New Haven, CT, USA
Abstract :
Semiconducting nanowires (NWs) have the potential to function as highly sensitive and selective sensors for label-free detection of minute concentrations of target molecules. We discuss here an approach to NW sensors using CMOS (complementary metal - oxide - semiconductor) - FET (field effect transistor) compatible technology, which enables detection of biomolecules to clinically relevant concentrations, as well as real-time monitoring of response. This approach eliminates the need for hybrid methods and enables system-scale integration of these sensors with signal processing and information systems. The ability to monitor antibody binding and sense real-time live cellular immune response with readily available technology will facilitate widespread diagnostic applications.
Keywords :
MOSFET; biosensors; molecular biophysics; nanomedicine; nanowires; CMOS-FET; antibody binding; biomolecules; biosensing; complementary metal oxide semiconductor; diagnostic applications; field effect transistor; hybrid methods; information systems; label-free detection; real-time live cellular immune response; real-time monitoring; semiconducting nanowires; signal processing; system-scale integration; target molecules; Biosensors; Blood; FETs; Microfluidics; Nanowires; Sensitivity; bioFETs; biomarker detection; biosensors; nanowires;
Conference_Titel :
Design Automation Conference (DAC), 2011 48th ACM/EDAC/IEEE
Conference_Location :
New York, NY
Print_ISBN :
978-1-4503-0636-2
