Litcius/Paper detail

Dynamic Complex Emulsions as Amplifiers for On-Chip Photonic Cavity-Enhanced Resonators

Suchol Savagatrup, Danhao Ma, Huikai Zhong, Kent S. Harvey, Lionel C. Kimerling, Anu Agarwal, Timothy M. Swager

2020ACS Sensors17 citationsDOIOpen Access PDF

Abstract

Despite the recent emergence of microcavity resonators as label-free biological and chemical sensors, practical applications still require simple and robust methods to impart chemical selectivity and reduce the cost of fabrication. We introduce the use of hydrocarbon-in-fluorocarbon-in-water (HC/FC/W) double emulsions as a liquid top cladding that expands the versatility of optical resonators as chemical sensors. The all-liquid complex emulsions are tunable droplets that undergo dynamic and reversible morphological transformations in response to a change in the chemical environment (e.g., exposure to targeted analytes). This chemical–morphological coupling drastically modifies the effective refractive index, allowing the complex emulsions to act as a chemical transducer and signal amplifier. We detect this large change in the refractive index by tracking the shift of the enveloped resonant spectrum of a silicon nitride (Si3N4) racetrack resonator-based sensor, which correlates well with a change in the morphology of the complex droplets. This combination of soft materials (dynamic complex emulsions) and hard materials (on-chip resonators) provides a unique platform for liquid-phase, real-time, and continuous detection of chemicals and biomolecules for miniaturized and remote, environmental, medical, and wearable sensing applications.

Topics & Concepts

ResonatorMaterials scienceCladding (metalworking)Refractive indexOptoelectronicsBiomoleculeAmplifierNanotechnologyPhotonicsSilicon nitrideLab-on-a-chipMicrofluidicsSiliconMetallurgyCMOSPhotonic and Optical DevicesPhotonic Crystals and ApplicationsElectrowetting and Microfluidic Technologies