In this article we present a fast and efficient methodology for biochemical surface patterning under extremely mild conditions. Micropatterned azide/benzaldoxime-surfaces were prepared by microcontact printing of a heterobifunctional cyclooctyne oxime linker on azide-terminated self-assembled monolayers (SAMs). Strain-promoted azide-alkyne cycloaddition (SPAAC) in combination with microcontact printing allows fast and effective surface patterning. The resulting bifunctional azide/oxime substrates could successfully be used for metal-free, orthogonal immobilization of various biomolecules by 1,3-dipolar cycloadditions at room temperature. Azide-decorated areas were modified by reaction with a cyclooctyne-conjugate using SPAAC, while benzaldo...
Electro-oxidative lithography is used as a tool to create chemical nanostructures on an n-octadecylt...
Electro-oxidative lithography is used as a tool to create chemical nanostructures on an n-octadecylt...
Electro-oxidative lithography is used as a tool to create chemical nanostructures on an n-octadecylt...
In this article we present a fast and efficient methodology for biochemical surface patterning under...
Copper-free “click” chemistry on appropriately modified surfaces and photolithography were explored ...
Copper-free "click" chemistry on appropriately modified surfaces and photolithography were explored ...
Copper-free "click" chemistry on appropriately modified surfaces and photolithography were explored ...
Copper-free "click" chemistry on appropriately modified surfaces and photolithography were explored ...
Cu-free “click” chemistry is explored on silicon nitride (Si<sub>3</sub>N<sub>4</sub>) surfaces as a...
Copper-free "click" chemistry on appropriately modified surfaces and photolithography were explored ...
Copper-free "click" chemistry on appropriately modified surfaces and photolithography were explored ...
Cu-free "click" chemistry is explored on silicon nitride (Si3N4) surfaces as an effective way for or...
Cu-free "click" chemistry is explored on silicon nitride (Si3N4) surfaces as an effective way for or...
Cu-free "click" chemistry is explored on silicon nitride (Si3N4) surfaces as an effective way for or...
Metal-free, strain-promoted alkyne–azide cycloaddition (SPAAC) is employed as a versatile technology...
Electro-oxidative lithography is used as a tool to create chemical nanostructures on an n-octadecylt...
Electro-oxidative lithography is used as a tool to create chemical nanostructures on an n-octadecylt...
Electro-oxidative lithography is used as a tool to create chemical nanostructures on an n-octadecylt...
In this article we present a fast and efficient methodology for biochemical surface patterning under...
Copper-free “click” chemistry on appropriately modified surfaces and photolithography were explored ...
Copper-free "click" chemistry on appropriately modified surfaces and photolithography were explored ...
Copper-free "click" chemistry on appropriately modified surfaces and photolithography were explored ...
Copper-free "click" chemistry on appropriately modified surfaces and photolithography were explored ...
Cu-free “click” chemistry is explored on silicon nitride (Si<sub>3</sub>N<sub>4</sub>) surfaces as a...
Copper-free "click" chemistry on appropriately modified surfaces and photolithography were explored ...
Copper-free "click" chemistry on appropriately modified surfaces and photolithography were explored ...
Cu-free "click" chemistry is explored on silicon nitride (Si3N4) surfaces as an effective way for or...
Cu-free "click" chemistry is explored on silicon nitride (Si3N4) surfaces as an effective way for or...
Cu-free "click" chemistry is explored on silicon nitride (Si3N4) surfaces as an effective way for or...
Metal-free, strain-promoted alkyne–azide cycloaddition (SPAAC) is employed as a versatile technology...
Electro-oxidative lithography is used as a tool to create chemical nanostructures on an n-octadecylt...
Electro-oxidative lithography is used as a tool to create chemical nanostructures on an n-octadecylt...
Electro-oxidative lithography is used as a tool to create chemical nanostructures on an n-octadecylt...