Nicolas Duchemin

Scientists are coupling terbium nanoparticles with organic ligands that enhance the fluorescence and allow biomolecule labelling. They obtain fluorescent particles that are brighter than quantum dots while also having room for functionnalization. These next generation probes may find use both for in-vitro detection and fluorescence Imaging.

Posts

Scientists are coupling terbium nanoparticles with organic ligands that enhance the fluorescence and allow biomolecule labelling. They obtain fluorescent particles that are brighter than quantum dots while also having room for functionnalization. These next generation probes may find use both for in-vitro detection and fluorescence Imaging.

Silyl glyoxylates: LED-optimized photoinitiators (Cloner)

Silyl glyoxylates: LED-optimized photoinitiators (Cloner)

Photoinitiators are best when they react swiftly. For example when one want to cure a resin in dental applications , the shorter it takes the less disturbing it is for the patient. Photoinitiators are best when they react swiftly. For example when one want to cure a resin in dental applications , the shorter it takes the less disturbing it is for the patient.

by Nicolas Duchemin, 5 juillet 2021

Ultrabright Terbium Nanoparticles

Ultrabright Terbium Nanoparticles

Scientists are coupling terbium nanoparticles with organic ligands that enhance the fluorescence and allow biomolecule labelling. They obtain fluorescent particles that are brighter than quantum dots while also having room for functionnalization. These next generation probes may find use both for in-vitro detection and fluorescence Imaging.

by Nicolas Duchemin, 5 juillet 2021

Journal Club sessions

Scientists are coupling terbium nanoparticles with organic ligands that enhance the fluorescence and allow biomolecule labelling. They obtain fluorescent particles that are brighter than quantum dots while also having room for functionnalization. These next generation probes may find use both for in-vitro detection and fluorescence Imaging.

Silyl glyoxylates: LED-optimized photoinitiators

Silyl glyoxylates: LED-optimized photoinitiators

Typically, photo-initiators are molecules which, upon UV irradiation, can trigger chemical reactions. Yet, this new class of photo-initiators can be activated by blue light instead . This makes them well suited for LED illumination.

Publication: Silyl glyoxylates as a New Class of High Performance Photoinitiators: Blue LED Induced Polymerization of Methacrylates in Thin and Thick Films

Authors: Mariem Bouzrati-ZerellJulie Kirschner, Christoph P. FikMaximilian Maier, Celine DietlinFabrice Morlet-Savary, Jean Pierre FouassierJean-Michel BechtJoachim E. Klee and Jacques Lalevée.

#photochemistry #polymerization #LED #Photoinitiators

by Aurélien Pasturel, 27 avril 2020

You want to contribute?

Share

with the community the life science tools you like. The Idylle blog welcomes articles on the most innovative research tools to be featured. 

I WANT TO PUBLISH

More life science tools to try

You want the latest on the life science tools the community shares, tests and adopts?  Sign up for Idylle's newsletter!

You can unsubscribe anytime. Read our Privacy Policy below.