Issue 11, 2013

Integration of microsphere resonators with bioassay fluidics for whispering gallery mode imaging

Abstract

Whispering gallery mode resonators are small, radially symmetric dielectrics that trap light through continuous total internal reflection. The resonant condition at which light is efficiently confined within the structure is linked with refractive index, which has led to the development of sensitive label-free sensing schemes based on whispering gallery mode resonators. One resonator design uses inexpensive high index glass microspheres that offer intrinsically superior optical characteristics, but have proven difficult to multiplex and integrate with the fluidics for sample delivery and fluid exchange necessary for assay development. Recently, we introduced a fluorescence imaging approach that enables large scale multiplexing with microsphere resonators, thus removing one obstacle for assay development. Here we report an approach for microsphere immobilization that overcomes limitations arising from their integration with fluidic delivery. The approach is an adaptation of a calcium-assisted glass bonding method originally developed for microfluidic glass chip fabrication. Microspheres bonded to glass using this technique are shown to be stable with respect to fluid flow and show no detectable loss in optical performance. Measured Q-factors, for example, remain unchanged following sphere bonding to the substrate. The stability of the immobilized resonators is further demonstrated by transferring lipid films onto the immobilized spheres using the Langmuir–Blodgett technique. Bilayers of DOPC doped with GM1 were transferred onto immobilized resonators to detect the binding of cholera toxin to GM1. Binding curves generated from shifts in the whispering gallery mode resonance result in a measured Kd of 1.5 × 10−11 with a limit of detection of 3.3 pM. These results are discussed in terms of future assay development using microsphere resonators.

Graphical abstract: Integration of microsphere resonators with bioassay fluidics for whispering gallery mode imaging

Article information

Article type
Paper
Submitted
15 Feb 2013
Accepted
15 Apr 2013
First published
15 Apr 2013

Analyst, 2013,138, 3189-3195

Integration of microsphere resonators with bioassay fluidics for whispering gallery mode imaging

D. C. Kim, K. P. Armendariz and R. C. Dunn, Analyst, 2013, 138, 3189 DOI: 10.1039/C3AN00328K

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