Quantitative Spatial Mapping of Mixing in Microfluidic Systems

Microfluidics promises to revolutionize chemical analysis, [1,2] synthesis, [3][4][5] and biotechnology [6] by combining processes such as mixing, separation, reaction, and detection in a single device. These systems function as "labs-on-a-chip", [7] creating a technology that is low-cost, high-thro

## Abstract Microfluidic cell culture systems offer a convenient way to measure cell biophysical parameters in conditions close to the physiological environment. We demonstrate the application of a mathematical model describing the spatial distribution of nutrient and growth factor concentrations i

## Abstract Herein, quantitative online monitoring of concentration fluctuations of different interesting drugs, namely, the phenothiazine promethazine as well as the anti‐cancer agent mitoxantrone via surface enhanced Raman scattering assay based on a microfluidic device is demonstrated. With the

Hippocampal pyramidal neurons in rats are selectively activated at specific locations in an environment (O'Keefe and Dostrovsky, Brain Res 1971;34:171-175). Different cells are active in different places, therefore providing a faithful representation of the environment in which every spatial locatio