Publicaties
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Block copolymers via thiol-ene 'click' chemistry Universiteit Gent
Block copolymers via thiol-ene 'click' chemistry Universiteit Gent
Triazolinediones as a versatile click chemistry platform enabling click and transclick reactions Universiteit Gent
Polymer End Group Modifications and Polymer Conjugations via " Click" Chemistry Employing Microreactor Technology Universiteit Hasselt
This study presents the development of microreactor protocols for the successful continuous flow end group modification of atom transfer radical polymerization precursor polymers into azide end-capped materials and the subsequent copper-catalyzed azide alkyne click reactions with alkyne polymers, in flow. By using a microreactor, the reaction speed of the azidation of poly(butyl acrylate), poly(methyl acrylate), and polystyrene can be ...
Nanoparticle Assembling through Click Chemistry Directed by Mixed SAMs for Magnetic Applications Vrije Universiteit Brussel
“Click” chemistry, used to promote nanoparticle assemblies, is a powerful strategy which has emerged very recently to control the spatial arrangement of nanoparticles onto surfaces. Such a strategy may be of high interest for applications such as magnetic recording media or magnetic sensors which are based on the fine control of the collective properties of nanoparticles. Nevertheless, self-assembly driven by clickable functional groups still ...
Boron-Doped Diamond Functionalization by an Electrografting/Alkyne-Azide Click Chemistry Sequence Universiteit Hasselt
A straightforward protocol for the covalent functionalization of boron-doped diamond electrodes with either ferrocene or single-stranded deoxyribonucleic acid (DNA) is reported. The functionalization method is based on a combination of diazonium salt electrografting and click chemistry. An azide-terminated organic layer is first electrografted onto the diamond surface by electrochemical reduction of 4-azidophenyldiazonium chloride. The ...