Add to ORKGClicks without Cu: There is a growing demand for reproducible site-specific functionalization of surfaces with biomolecules without introduction of unwanted groups or catalysts, as they may interfere with later applications. The title reactions (see picture) could fulfill these requirements, and four recent applications are discussed
In the last decade, interest in the functionalization of surfaces and materials has increased dramat...
In the last decade, interest in the functionalization of surfaces and materials has increased dramat...
Click chemistry describes crosslinking reactions in which pairs of functional groups selectively “cl...
Clicks without Cu: There is a growing demand for reproducible site-specific functionalization of sur...
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 ...
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...
The first reported click reaction, copper(I)-catalyzed azide-alkyne 1,3-dipolar cycloaddition, had l...
In the last decade, interest in the functionalization of surfaces and materials has increased dramat...
In the last decade, interest in the functionalization of surfaces and materials has increased dramat...
In the last decade, interest in the functionalization of surfaces and materials has increased dramat...
Click chemistry describes crosslinking reactions in which pairs of functional groups selectively “cl...
Clicks without Cu: There is a growing demand for reproducible site-specific functionalization of sur...
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 ...
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...
The first reported click reaction, copper(I)-catalyzed azide-alkyne 1,3-dipolar cycloaddition, had l...
In the last decade, interest in the functionalization of surfaces and materials has increased dramat...
In the last decade, interest in the functionalization of surfaces and materials has increased dramat...
In the last decade, interest in the functionalization of surfaces and materials has increased dramat...
Click chemistry describes crosslinking reactions in which pairs of functional groups selectively “cl...