Add to ORKGIntegrated optical detection in a commercial microfluidic chip for capillary electrophoresis has been implemented by means of femtosecond laser written optical waveguides for excitation and a high numerical aperture optical fiber for collection
This paper describes results obtained with a lab-on-a-chip with monolithically integrated optical wa...
A combination of waveguides and microfluidics is easily achieved through femtosecond-laser micromach...
Femtosecond-laser-written waveguides were integrated with fluidic microchannels in a commercial lab-...
Femtosecond-laser-written optical waveguides are integrated into a commercial capillary electrophore...
Femtosecond lasers enable the fabrication of both optical waveguides and buried microfluidic channel...
We use direct femtosecond laser writing to integrate optical waveguides into a commercial fused sili...
Capillary electrophoresis separation in an on-chip integrated microfluidic channel is typically moni...
Integrated optical detection in a commercial microfluidic chip for capillary electrophoresis has bee...
The substitution of conventional bench-top instrumentation by fully integrated lab-on-chip systems c...
Optical waveguides have been fabricated focusing femtosecond laser pulses into a commercial microflu...
Using femtosecond laser writing, optical waveguides were monolithically integrated into a commercial...
Using femtosecond laser writing, optical waveguides were monolithically integrated into a commercial...
Fluorescence detection is known to be one of the most sensitive among the different optical sensing ...
Monolithic integration of optical waveguides in a commercial lab-on-a-chip by femtosecond-laser mate...
Fluorescence detection is known to be one of the most sensitive among the different optical sensing ...
This paper describes results obtained with a lab-on-a-chip with monolithically integrated optical wa...
A combination of waveguides and microfluidics is easily achieved through femtosecond-laser micromach...
Femtosecond-laser-written waveguides were integrated with fluidic microchannels in a commercial lab-...
Femtosecond-laser-written optical waveguides are integrated into a commercial capillary electrophore...
Femtosecond lasers enable the fabrication of both optical waveguides and buried microfluidic channel...
We use direct femtosecond laser writing to integrate optical waveguides into a commercial fused sili...
Capillary electrophoresis separation in an on-chip integrated microfluidic channel is typically moni...
Integrated optical detection in a commercial microfluidic chip for capillary electrophoresis has bee...
The substitution of conventional bench-top instrumentation by fully integrated lab-on-chip systems c...
Optical waveguides have been fabricated focusing femtosecond laser pulses into a commercial microflu...
Using femtosecond laser writing, optical waveguides were monolithically integrated into a commercial...
Using femtosecond laser writing, optical waveguides were monolithically integrated into a commercial...
Fluorescence detection is known to be one of the most sensitive among the different optical sensing ...
Monolithic integration of optical waveguides in a commercial lab-on-a-chip by femtosecond-laser mate...
Fluorescence detection is known to be one of the most sensitive among the different optical sensing ...
This paper describes results obtained with a lab-on-a-chip with monolithically integrated optical wa...
A combination of waveguides and microfluidics is easily achieved through femtosecond-laser micromach...
Femtosecond-laser-written waveguides were integrated with fluidic microchannels in a commercial lab-...