pH/ion nanosensors with optical tweezers in a lab-on-a-chip

We present a lab-on-a-chip measurement platform for monitoring pH and other ion concentrations of solutions in a microfluidic device or within biological cells, with high spatial resolution. We have developed a variety of polymeric pH/ion sensitive nanoparticles (ion optodes), or `nanosensors', that can be synthesized \textit{in situ }within a microfluidic device. These ion optodes exhibit fluorescence spectra that change with the pH/ion concentration of the surrounding environment. We optically trap and manipulate several nanosensors, either in microfluidic channels or within biological cells, using holographic optical tweezers and simultaneously monitor fluorescence emission spectra from individual nanosensors. Changes in the fluorescence spectra of the optically trapped ion optodes provide information on spatial and temporal changes in either the pH or ion concentrations in the microfluidic channel or biological cell.