Title :
Single-molecule electronic detection using nanoscale field-effect devices
Author :
Sorgenfrei, Sebastian ; Shepard, Kenneth
Author_Institution :
Bioelectron. Syst. Lab., Columbia Univ., New York, NY, USA
Abstract :
Traditionally, biomolecular systems have been studied in ensemble. While much can be determined with ensemble measurements, scientific and technological interest is rapidly moving to single-molecule techniques, which rely primarily on fluorescent markers and advanced microscopy techniques. In this paper, we describe recent work using nanoscale transistors based on carbon nanotubes as charge-sensitive detectors. We show carbon nanotubes can be used for ensemble studies through sidewall adsorption. Sensitivity can be greatly enhanced though an engineered defect in the nanotube. Biomolecular interactions are characterized by random-telegraph-noise response, which can be analyzed to study single-molecule kinetics and thermodynamics.
Keywords :
adsorption; carbon nanotubes; field effect devices; fluorescence; macromolecules; molecular biophysics; transistors; biomolecular interactions; biomolecular systems; carbon nanotubes; ensemble measurements; fluorescent markers; microscopy techniques; nanoscale field-effect devices; nanoscale transistors; random-telegraph-noise response; sidewall adsorption; single-molecule electronic detection; CMOS integrated circuits; Carbon nanotubes; DNA; Logic gates; Noise; Sensitivity; Sensors; Single-molecule sensing; carbon nanotube transistors;
Conference_Titel :
Design Automation Conference (DAC), 2011 48th ACM/EDAC/IEEE
Conference_Location :
New York, NY
Print_ISBN :
978-1-4503-0636-2
