Monolithic integration of microfluidic channels and optical waveguides in silica on silicon.
- 1 December 2001
- journal article
- Published by Optica Publishing Group in Applied Optics
- Vol. 40 (34) , 6246-6251
- https://doi.org/10.1364/ao.40.006246
Abstract
Sealing of the flow channel is an important aspect during integration of microfluidic channels and optical waveguides. The uneven topography of many waveguide-fabrication techniques will lead to leakage of the fluid channels. Planarization methods such as chemical mechanical polishing or the etch-back technique are possible, but troublesome. We present a simple but efficient alternative: By means of changing the waveguide layout, bonding pads are formed along the microfluidic channels. With the same height as the waveguide, they effectively prevent leakage and hermetically seal the channels during bonding. Negligible influence on light propagation is found when 10-mum-wide bonding pads are used. Fabricated microsystems with application in absorbance measurements and flow cytometry are presented.Keywords
This publication has 17 references indexed in Scilit:
- Flame Hydrolysis Deposition of Glass on Silicon for the Integration of Optical and Microfluidic DevicesAnalytical Chemistry, 2000
- Low-loss polymeric optical waveguides fabricated with deuterated polyfluoromethacrylateJournal of Lightwave Technology, 1998
- Plasma‐Enhanced Chemical Vapor Deposited Silicon Oxynitride Films for Optical Waveguide Bridges for Use in Mechanical SensorsJournal of the Electrochemical Society, 1997
- Miniature integrated optical modules for chemical and biochemical sensingSensors and Actuators B: Chemical, 1997
- Integrated optical chemical and direct biochemical sensorsSensors and Actuators B: Chemical, 1995
- Plasma planarization for sensor applicationsJournal of Microelectromechanical Systems, 1995
- Monolithic integration of optical waveguide circuitry with III-V photodetectors for advanced lightwave receiversJournal of Lightwave Technology, 1993
- Miniaturized total chemical analysis systems: A novel concept for chemical sensingSensors and Actuators B: Chemical, 1990
- A planarization technology using a bias-deposited dielectric film and an etch-back processIEEE Transactions on Electron Devices, 1988
- Fabrication of low-loss titanium-diffused LiNbO 3 waveguides using a closed platinum crucibleElectronics Letters, 1987