Add to ORKGIn this work the forma tion of porous honeycomb-structured polymeric surfaces by the Breath Figure technique ha ve been studied. This is one of the most promising methods for the fabrication of homogeneous and hi ghly porous films from polymeric matrixes. These surfaces have wide number of potential applications such as biosensors or membrane separation.; Lan honetan, lurrun -irudien teknikaren bidezko abaraska itxurako gainazal polimeriko porotsuen eraketa aztertu da. Bere sinpletasunari esker, teknika hau matrize polimerikoetatik film porotsu eta homogeneoak lortzeko teknika oparoenen artekoa da. Gainazal hauek aplikazio potentzial ugari dituzte biosentsore edo banaketa mintz bezala
In recent times, it was divulged that highly ordered honeycomb structured porous films from a variet...
Breath figure (BF) process is a promising technique for fabricating honeycomb polymer films. It is u...
The formation of hierarchically ordered arrays of spherical cavities on polymer films is of interest...
In this work the forma tion of porous honeycomb-structured polymeric surfaces by the Breath Figure t...
The breath figure method, which is used to form porous films from water droplet templates, has attra...
Honeycomb-structured, porous films with pore sizes ranging from 200 nm to 7 μm were prepared with br...
Porous polymer films are used in various different fields such as electronics, sensors, biomedical, ...
AbstractSince its introduction in 1994, the preparation of ordered porous polymer films by the breat...
YÖK Tez No: 578025Nefes Figürü tekniği gözenekli polimerik filmlerin eldesinde kullanılan pahalı lit...
A breath figure (BF) is the water droplet array that forms when moisture comes in contact with a col...
This dissertation studies and examines the process of formation of honeycomb structured porous films...
International audienceHoneycomb-patterned porous films with good surface wettability have great pote...
We report on the preparation of functional polymer surfaces with controlled topography by using the ...
Honeycomb porous films prepared by the breath figure method show great potential in fields such as t...
Employing amphiphilic block copolymers in a casting process to obtain honeycomb-structured films via...
In recent times, it was divulged that highly ordered honeycomb structured porous films from a variet...
Breath figure (BF) process is a promising technique for fabricating honeycomb polymer films. It is u...
The formation of hierarchically ordered arrays of spherical cavities on polymer films is of interest...
In this work the forma tion of porous honeycomb-structured polymeric surfaces by the Breath Figure t...
The breath figure method, which is used to form porous films from water droplet templates, has attra...
Honeycomb-structured, porous films with pore sizes ranging from 200 nm to 7 μm were prepared with br...
Porous polymer films are used in various different fields such as electronics, sensors, biomedical, ...
AbstractSince its introduction in 1994, the preparation of ordered porous polymer films by the breat...
YÖK Tez No: 578025Nefes Figürü tekniği gözenekli polimerik filmlerin eldesinde kullanılan pahalı lit...
A breath figure (BF) is the water droplet array that forms when moisture comes in contact with a col...
This dissertation studies and examines the process of formation of honeycomb structured porous films...
International audienceHoneycomb-patterned porous films with good surface wettability have great pote...
We report on the preparation of functional polymer surfaces with controlled topography by using the ...
Honeycomb porous films prepared by the breath figure method show great potential in fields such as t...
Employing amphiphilic block copolymers in a casting process to obtain honeycomb-structured films via...
In recent times, it was divulged that highly ordered honeycomb structured porous films from a variet...
Breath figure (BF) process is a promising technique for fabricating honeycomb polymer films. It is u...
The formation of hierarchically ordered arrays of spherical cavities on polymer films is of interest...