Novel functionalities have been developed through the fusion of optics and microfluidics. We categorize the different possible tuning mechanisms in optofluidics and describe the recent examples in each category. (C)2010 Optical Society of Americ
Optofluidics incorporates optics and microfluidics together to construct novel devices for microsyst...
This review presents a systematic perspective on the development of micro-optofluidic lenses. The pr...
The synergetic integration of photonics and microfluidics has enabled a wide range of optofluidic de...
Microfluidics represents the science and technology that processes or manipulates a small amount of ...
We describe devices in which optics and fluidics are used synergistically to synthesize novel functi...
In the recent past, the field of optofluidics has thrived from the immense efforts of researchers fr...
"Optofluidics" is the marriage of optics, optoelectronics and nanophotonics with fluidics. Such inte...
Optofluidics is a rising technology that combines microfluidics and optics. Its goal is to manipulat...
Optofluidics combines and integrates optics and fluidics to produce versatile systems that are achie...
Optofluidic devices are of high scientific and industrial interest in chemistry, biology, material s...
We introduce for the first time a tuning mechanism for optofluidic devices by embedding a Micro-Air-...
Optofluidics has recently gained huge research attentions because of its synergic manipulations of l...
Optofluidics, nominally the research area where optics and fluidics merge, is a relatively new resea...
The integration of microfluidics and microphotonics brings the ability to tune and reconfigure ultra...
Optofluidics offers new functionalities that can be useful for a large range of applications. What m...
Optofluidics incorporates optics and microfluidics together to construct novel devices for microsyst...
This review presents a systematic perspective on the development of micro-optofluidic lenses. The pr...
The synergetic integration of photonics and microfluidics has enabled a wide range of optofluidic de...
Microfluidics represents the science and technology that processes or manipulates a small amount of ...
We describe devices in which optics and fluidics are used synergistically to synthesize novel functi...
In the recent past, the field of optofluidics has thrived from the immense efforts of researchers fr...
"Optofluidics" is the marriage of optics, optoelectronics and nanophotonics with fluidics. Such inte...
Optofluidics is a rising technology that combines microfluidics and optics. Its goal is to manipulat...
Optofluidics combines and integrates optics and fluidics to produce versatile systems that are achie...
Optofluidic devices are of high scientific and industrial interest in chemistry, biology, material s...
We introduce for the first time a tuning mechanism for optofluidic devices by embedding a Micro-Air-...
Optofluidics has recently gained huge research attentions because of its synergic manipulations of l...
Optofluidics, nominally the research area where optics and fluidics merge, is a relatively new resea...
The integration of microfluidics and microphotonics brings the ability to tune and reconfigure ultra...
Optofluidics offers new functionalities that can be useful for a large range of applications. What m...
Optofluidics incorporates optics and microfluidics together to construct novel devices for microsyst...
This review presents a systematic perspective on the development of micro-optofluidic lenses. The pr...
The synergetic integration of photonics and microfluidics has enabled a wide range of optofluidic de...
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