Add to ORKGOptofluidics is a promising interdisciplinary research and technological field, thanks to its wide potential of application in sector like medicine, chemistry, biology and environmental science. In this context the study of innovative materials including their properties, their efficiency, their limits and their possibility of leading to miniaturized devices is the key point for the overcoming of currently adopted strategies. A promising material that could satisfy new optofluidic requirements is Lithium Niobate (LiNbO3 - LN) thanks to its excellent optical and nonlinear optical properties. In this work we demonstrated for the first time the applicability of the Lithium Niobate as a high intagrable and tailorable substrate for optofluidics...
We demonstrate the all optical control of the molecular orientation of nematic liquid crystals confi...
The state of the art of optical waveguide fabrication in lithium niobate is reviewed, with particula...
The aim of Lab-on-a-chip systems is the downscaling of analytical protocols into microfluidic device...
Since the growing interest in Lab-On-a-Chip (LOC) applications, the demand for a high multifunctiona...
In micro-analytical chemistry and biology applications, optofluidic technology holds great promise f...
In micro-analytical chemistry and biology applications, optofluidic technology holds great promise f...
International audienceDuring the last years Optofluidic has attracted the interest of the scientific...
International audienceDuring the last years Optofluidic has attracted the interest of the scientific...
International audienceDuring the last years Optofluidic has attracted the interest of the scientific...
International audienceDuring the last years Optofluidic has attracted the interest of the scientific...
In micro-analytical chemistry and biology applications, droplet microfluidic technology holds great ...
In micro-analytical chemistry and biology applications, droplet microfluidic technology holds great ...
In this work, we realized and tested an integrated opto-microfluidics platform entirely made on lithi...
We demonstrate the all optical control of the molecular orientation of nematic liquid crystals confi...
We demonstrate the all optical control of the molecular orientation of nematic liquid crystals confi...
We demonstrate the all optical control of the molecular orientation of nematic liquid crystals confi...
The state of the art of optical waveguide fabrication in lithium niobate is reviewed, with particula...
The aim of Lab-on-a-chip systems is the downscaling of analytical protocols into microfluidic device...
Since the growing interest in Lab-On-a-Chip (LOC) applications, the demand for a high multifunctiona...
In micro-analytical chemistry and biology applications, optofluidic technology holds great promise f...
In micro-analytical chemistry and biology applications, optofluidic technology holds great promise f...
International audienceDuring the last years Optofluidic has attracted the interest of the scientific...
International audienceDuring the last years Optofluidic has attracted the interest of the scientific...
International audienceDuring the last years Optofluidic has attracted the interest of the scientific...
International audienceDuring the last years Optofluidic has attracted the interest of the scientific...
In micro-analytical chemistry and biology applications, droplet microfluidic technology holds great ...
In micro-analytical chemistry and biology applications, droplet microfluidic technology holds great ...
In this work, we realized and tested an integrated opto-microfluidics platform entirely made on lithi...
We demonstrate the all optical control of the molecular orientation of nematic liquid crystals confi...
We demonstrate the all optical control of the molecular orientation of nematic liquid crystals confi...
We demonstrate the all optical control of the molecular orientation of nematic liquid crystals confi...
The state of the art of optical waveguide fabrication in lithium niobate is reviewed, with particula...
The aim of Lab-on-a-chip systems is the downscaling of analytical protocols into microfluidic device...