Add to ORKG∗This paper reports a novel laser processing technique for making channels in the nano regime. A Nd:YAG laser was used to dry fabricate micro channels (25µm-100µm diameter) in a 1cm3 fused silica substrate by thermal-induced processing. By controlling the locations of these initiating micro channels on a silica cube, 1D-controllable self-connecting nano fractures can be formed as rectangular channels. These nano channels are smooth and with extremely high aspect ratio (~104 depth to width ratio). The length of the channels is controlled by the separation of the initiating micro channels. This laser-based nano channel fabrication technique is fast and inexpensive, and with potential applications in capillary electrophoresis and electro-osmos...
We report on the fabrication of shape-controlled microchannels in fused silica by femtosecond laser ...
One-step femtosecond laser writing is used to make nanoporous capillaries inside fused silica. Laser...
Nanofluidic devices are of great interest due to their promising applications in biological/chemical...
The authors report on the fabrication of subsurfaced 100-600 nm wide nanochannels in fused silica wi...
With the proper choice of laser parameters focused femtosecond laser light creates long-range self-a...
International audienceTransparent dielectrics such as glass are becoming increasingly used in nanote...
We report on controllable production of nanostructures embedded in a porous glass by femtosecond las...
We report on the fabrication of nanofluidic channels directly buried in silicate glass with transver...
In the last decades, research and development of microfluidics have made extraordinary progress, sin...
This paper introduced a wafer-scale fabrication approach for the preparation of nanochannels with hi...
The creation of complex three-dimensional (3D) fluidic systems composed of hollow micro- and nanostr...
Femtosecond laser direct writing is unique in allowing for fabrication of 3D micro- and nanofluidic ...
International audienceWe report high aspect ratio nanochannel fabrication in glass using single-shot...
Nanofluidics is the science and technology involving a fluid flowing in or around structures with a ...
Carbon dioxide (CO2)-laser processing of glasses is a versatile maskless writing technique to engrav...
We report on the fabrication of shape-controlled microchannels in fused silica by femtosecond laser ...
One-step femtosecond laser writing is used to make nanoporous capillaries inside fused silica. Laser...
Nanofluidic devices are of great interest due to their promising applications in biological/chemical...
The authors report on the fabrication of subsurfaced 100-600 nm wide nanochannels in fused silica wi...
With the proper choice of laser parameters focused femtosecond laser light creates long-range self-a...
International audienceTransparent dielectrics such as glass are becoming increasingly used in nanote...
We report on controllable production of nanostructures embedded in a porous glass by femtosecond las...
We report on the fabrication of nanofluidic channels directly buried in silicate glass with transver...
In the last decades, research and development of microfluidics have made extraordinary progress, sin...
This paper introduced a wafer-scale fabrication approach for the preparation of nanochannels with hi...
The creation of complex three-dimensional (3D) fluidic systems composed of hollow micro- and nanostr...
Femtosecond laser direct writing is unique in allowing for fabrication of 3D micro- and nanofluidic ...
International audienceWe report high aspect ratio nanochannel fabrication in glass using single-shot...
Nanofluidics is the science and technology involving a fluid flowing in or around structures with a ...
Carbon dioxide (CO2)-laser processing of glasses is a versatile maskless writing technique to engrav...
We report on the fabrication of shape-controlled microchannels in fused silica by femtosecond laser ...
One-step femtosecond laser writing is used to make nanoporous capillaries inside fused silica. Laser...
Nanofluidic devices are of great interest due to their promising applications in biological/chemical...