This article reviews the application of electric circuit methods for the analysis of pressure-
driven microfluidic networks with an emphasis on concentration-and flow-dependent …

This article reviews the recent progress in optical biosensors that use the label-free
detection protocol, in which biomolecules are unlabeled or unmodified, and are detected in …

We describe devices in which optics and fluidics are used synergistically to synthesize novel
functionalities. Fluidic replacement or modification leads to reconfigurable optical systems …

The realization of miniaturized optofluidic platforms offers potential for achieving more
functional and more compact devices. Such integrated systems bring fluid and light together …

This paper provides an overview of the rather new field concerning the applications of
femtosecond laser microstructuring of glass to optofluidics. Femtosecond lasers have …

Silicon photonics is the most promising pathway to achieve> 10 Tb/s off-chip I/O bandwidth
required by next-generation high-performance computing and switching systems. Ring …

The high-precision integration of three-dimensional (3D) microoptical components into
microfluidics in a customizable manner is crucial for optical sensing, fluorescence analysis …

Optical techniques are finding widespread use in analytical chemistry for chemical and bio-
chemical analysis. During the past decade, there has been an increasing emphasis on …

Optofluidics integrates the fields of photonics and microfluidics, providing new freedom to
both fields and permitting the realization of optical and fluidic property manipulations at the …

The emerging field of optofluidics provides exciting opportunities for the realization of
tunable optofluidic devices (TODs) using a large variety of physical mechanisms. This is …