Label-Free, Single-Molecule Detection with Optical Microcavities

Andrea M. Armani(California Institute of Technology), Rajan P. Kulkarni(California Institute of Technology), Scott E. Fraser(California Institute of Technology), Richard C. Flagan(California Institute of Technology), Kerry J. Vahala(California Institute of Technology)
Science
July 6, 2007
10.1126/science.1145002
Cited by 1,133

Abstract

Current single-molecule detection techniques require labeling the target molecule. We report a highly specific and sensitive optical sensor based on an ultrahigh quality (Q) factor (Q > 10(8)) whispering-gallery microcavity. The silica surface is functionalized to bind the target molecule; binding is detected by a resonant wavelength shift. Single-molecule detection is confirmed by observation of single-molecule binding events that shift the resonant frequency, as well as by the statistics for these shifts over many binding events. These shifts result from a thermo-optic mechanism. Additionally, label-free, single-molecule detection of interleukin-2 was demonstrated in serum. These experiments demonstrate a dynamic range of 10(12) in concentration, establishing the microcavity as a sensitive and versatile detector.

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