Add to ORKGA simple and economical method for patterning hydrophilic surface areas next to hydrophobic areas on silicon and glass is described. Implications of such technique are discussed and many interesting features are demonstrated
Measurements of the spreading and capillary forces for liquids deposited on solid surfaces of varyin...
We describe a new scalable method to fabricate large-area hybrid superhydrophobic surfaces with sele...
The interest for Microfluidics and Lab-on-chip for use in medical and biotechnical applications has ...
A simple and economical method for patterning hydrophilic surface areas next to hydrophobic areas on...
In this paper we report a new method of fabrication of surface tension confined microfluidic devices...
We present a capillary flow system for liquid transport in microsystems. Our simple microfluidic sys...
This thesis describes an approach that is particularly useful for prototyping new devices and system...
This thesis introduces important improvements in fabrication of microfluidic devices on silicon and ...
An efficient, economic, reliable, and repeatable patterning procedure of hydrophobic surfaces was de...
AbstractThis work is intended to characterize the fluid conducting behaviour of microcapillary syste...
Soft micro devices and stretchable electronics have attracted great interest for their potential app...
We demonstrate the active manipulation of nanoliter liquid samples on the surface of a glass or sili...
Abstract: Fluidic self-assembly using capillary forces has shown great potential for the manufactur...
One of the promising strategies to achieve high performance flexible electronics is to integrate hig...
Soft micro devices and stretchable electronics have attracted great interest for their potential app...
Measurements of the spreading and capillary forces for liquids deposited on solid surfaces of varyin...
We describe a new scalable method to fabricate large-area hybrid superhydrophobic surfaces with sele...
The interest for Microfluidics and Lab-on-chip for use in medical and biotechnical applications has ...
A simple and economical method for patterning hydrophilic surface areas next to hydrophobic areas on...
In this paper we report a new method of fabrication of surface tension confined microfluidic devices...
We present a capillary flow system for liquid transport in microsystems. Our simple microfluidic sys...
This thesis describes an approach that is particularly useful for prototyping new devices and system...
This thesis introduces important improvements in fabrication of microfluidic devices on silicon and ...
An efficient, economic, reliable, and repeatable patterning procedure of hydrophobic surfaces was de...
AbstractThis work is intended to characterize the fluid conducting behaviour of microcapillary syste...
Soft micro devices and stretchable electronics have attracted great interest for their potential app...
We demonstrate the active manipulation of nanoliter liquid samples on the surface of a glass or sili...
Abstract: Fluidic self-assembly using capillary forces has shown great potential for the manufactur...
One of the promising strategies to achieve high performance flexible electronics is to integrate hig...
Soft micro devices and stretchable electronics have attracted great interest for their potential app...
Measurements of the spreading and capillary forces for liquids deposited on solid surfaces of varyin...
We describe a new scalable method to fabricate large-area hybrid superhydrophobic surfaces with sele...
The interest for Microfluidics and Lab-on-chip for use in medical and biotechnical applications has ...