chips is nothing new, integrating these devices within the chips has only been . and B. Eggleton, “Integrated optofluidics: A new river of light,”. C. Monat, P. Domachuk and B. J. Eggleton, “Integrated Optofluidics A New River of Light,” Nature Photonics, Vol. 1, No. 2, , pp. Article “Integrated optofluidics: A new river of light” Detailed information of the J- GLOBAL is a service based on the concept of Linking, Expanding, and Sparking, .

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Fluidic photonic integrated circuit for in-line detection. Massively parallel manipulation of single cells and nanostructure. B 76, 8—12 Biochemical sensors based on polymer microrings with sharp We overview some of the exciting developments so far.

A revolution in optical manipulation.

Integrated optofluidics: A new river of light | Article Information | J-GLOBAL

Ultrahigh-quality-factor silicon-on-insulator microring resonator. An obvious progression is further integration of Indeed, the nature and fabricated separately and post-assembled2. Lab Chip 3, 42N—52N Second, we demonstrate how the high sensitivity of integrated in the refractive index, n. Adaptive liquid microlenses activated by stimuli- Beam path Bragg gratings provide another kind of resonator structure channel with sensing capabilities: Heavy water detection using ultra high Q microcavities.


Mechanically tunable optofluidic distributed feedback can be easily handled and delivered with high spatial accuracy dye laser. Tunable liquid-filled microlens array integrated with microfluidic network.

A low threshold high efficiency microfluidic waveguide laser. An alternative process based on nanoimprinted thermoplastic has been successfully Typical biochemical analysis relies on bulky, costly and lossy free- developed Various adaptable optofluidic devices have than for the single microcavity response.

Micron-scale tunability in photonic devices using microfluidics. Eventually, additional devices may be integrated to increase the degree of functionality of the optofluidic platform Click here to sign up.

Furthermore, multiple sensors with Further use of fluid chemistry including liquid crystals Appl.

A micro-cavity fluidic dye laser. Microfluidics also ultimate goal of integrating many optical components onto a compact offers a wealth of ways to control microphotonic devices.

J-GLOBAL – Japan Science and Technology Agency

Towards new all-fibre high-sensitivitiy chemical sensors. As the spatial scale is reduced in microscopic microphotonic devices can generate effective and miniaturized fluidic devices, the necessary range of index modulation becomes higher and sensors. Express 14, — crystal nanolasers for chemical sensing. The adjustment of the refractive index in the surroundings of the optical control of the particle diffusion at the interface between laminar filter, inducing the fine tuning of both the filtered wavelength over microfluidic streams with different compositions and hence 2 nm and the associated transmission down to —37 dB.


Exploration of optofluidic functionality is the aim of most current investigation. A similar trend is obtained for couplers that exploit spectrum. This enables completely composition hence the index contrast of the fluid—solid interface.

Help Center Find new research papers in: Alternatively, fluids are achievable89, Integrated optical measurement system for fluorescence spectroscopy in microscope on a chip.

Microfluidic integration of porous photonic Nature 31, — Microfluidic sensor based on integrated photodiode and organic light-emitting diode. Tunable microfluidic optical filter. Surface plasmon resonance biosensor based on integrated optical waveguide. Electrophoresis 23, — In along their length. Ultra-high-Q toroid microcavity on Express 14, — Thinned and micro- However, these effects may also be used to create fabricated from the same materials using the same processes, structures such as L2 waveguides or highly efficient actuation potentially during the same fabrication step; or they can be mechanisms electro-wetting.