optofluidics

Optofluidics is a multidisciplinary field that combines optics and microfluidics to manipulate light and fluids on a single chip. It aims to enable integrated optical interrogation and fluid handling for chemical and biological analysis, imaging, sensing, and actuation. Devices typically integrate optical components such as waveguides, lenses, and detectors with microfluidic channels and valves made from materials like PDMS, glass, or polymers.

Key operating principles include optical manipulation using light-based forces to trap or move particles and cells,

Architectures include on-chip waveguides interfaced with microchannels, optofluidic lenses or micromirrors, and microcavities or photonic-crystal structures

Applications span lab-on-a-chip diagnostics, environmental sensing, high-throughput screening, single-cell analysis, and portable sensing. Advantages of optofluidics

Research directions include integrating nanoscale photonic components, plasmonics, and nonlinear optics with microfluidics, as well as