Add to ORKGThere is a growing need for functionalization strategies aimed to improve performance of platforms for pharmaceutical screening. Screening assays for membrane proteins are especially of interest, as these proteins represent more than 50% of all drug targets. In order to selectively probe the functionality of membrane protein ion channels, it would be desirable to have nanoporous supports with controlled ion permeation. Stimulus responsive polymers offer the possibility of achieving rapid and reversible switching between conformations and can be induced locally, which makes them ideal candidates for miniaturized devices with fast response times
International audienceSolid-state nanopores provide a powerful tool to electrically analyze nanopart...
International audienceSolid-state nanopores provide a powerful tool to electrically analyze nanopart...
Functional nanopores play an essential role in many biotechnological applications such as sensing, o...
The development of a biosensor for high throughput screening of membrane proteins is a major challen...
Macromolecular nanotechnology can be used to develop switchable surfaces, especially so called polym...
There is a growing need for functionalization strategies aimed to improve performance of platforms f...
The aim of this thesis was the development of stimulus responsive polymer brush structures as microp...
Surface modification by the in situ growth of polymer chains from surface-anchored initiators (the “...
Nanopores in arrays on silicon chips are functionalized with pH-responsive poly(methacrylic acid) (P...
Nanopores in arrays on silicon chips are functionalized with pH-responsive poly(methacrylic acid) (P...
Nanopores in arrays on silicon chips are functionalized with pH-responsive poly(methacrylic acid) (P...
Abstract: Responsive polymers attached to the inside of nano/micro-pores have attracted great intere...
International audienceSolid-state nanopores provide a powerful tool to electrically analyze nanopart...
International audienceSolid-state nanopores provide a powerful tool to electrically analyze nanopart...
International audienceSolid-state nanopores provide a powerful tool to electrically analyze nanopart...
International audienceSolid-state nanopores provide a powerful tool to electrically analyze nanopart...
International audienceSolid-state nanopores provide a powerful tool to electrically analyze nanopart...
Functional nanopores play an essential role in many biotechnological applications such as sensing, o...
The development of a biosensor for high throughput screening of membrane proteins is a major challen...
Macromolecular nanotechnology can be used to develop switchable surfaces, especially so called polym...
There is a growing need for functionalization strategies aimed to improve performance of platforms f...
The aim of this thesis was the development of stimulus responsive polymer brush structures as microp...
Surface modification by the in situ growth of polymer chains from surface-anchored initiators (the “...
Nanopores in arrays on silicon chips are functionalized with pH-responsive poly(methacrylic acid) (P...
Nanopores in arrays on silicon chips are functionalized with pH-responsive poly(methacrylic acid) (P...
Nanopores in arrays on silicon chips are functionalized with pH-responsive poly(methacrylic acid) (P...
Abstract: Responsive polymers attached to the inside of nano/micro-pores have attracted great intere...
International audienceSolid-state nanopores provide a powerful tool to electrically analyze nanopart...
International audienceSolid-state nanopores provide a powerful tool to electrically analyze nanopart...
International audienceSolid-state nanopores provide a powerful tool to electrically analyze nanopart...
International audienceSolid-state nanopores provide a powerful tool to electrically analyze nanopart...
International audienceSolid-state nanopores provide a powerful tool to electrically analyze nanopart...
Functional nanopores play an essential role in many biotechnological applications such as sensing, o...