Add to ORKGWe describe a solid polyphenylene support that serves as an excellent platform for metal‐catalyzed reactions that are normally carried out under homogeneous conditions. The catalyst is synthesized by palladium‐catalyzed Suzuki coupling which directly results in formation of palladium nanoparticles confined to a porous polyphenylene network. The composite solid is in turn highly active for further Suzuki coupling reactions, including non‐activated substrates that are challenging even for molecular catalysts
Producción CientíficaA new generation of confined palladium(II) catalysts covalently attached inside...
Les réactions pallado-catalysées permettant la formation de liaisons carbone-carbone trouvent de nom...
This study shows that polymer nanogels (well-defined cross-linked nanoparticles behaving as highly h...
We describe a solid polyphenylene support that serves as an excellent platform for metal-catalyzed r...
Palladium nanoparticles (Pd NPs) synthesized by the metal vapor synthesis technique were supported o...
Palladium was immobilized on a highly porous copolymer of 4-vinylpyridine and divinylbenzene (polyHI...
A phenolic resin-supported palladium catalyst, in which hydroxyl groups contribute to the stabilizat...
Abstract(#br)Reusable palladium nanoparticles highly dispersed in porous and hydrophilic interpenetr...
A new generation of confined palladium(II) catalysts covalently attached inside of porous organic po...
It is highly desirable to design functionalized supports in heterogeneous catalysis regarding the st...
The preparation of monolithic polyionic supports which serve as efficient heterogeneous supports for...
This report displays the procedure in preparation of fast, highly productive, reusable, and easily ...
Nanoparticles immobilized on a solid support are able to catalyse a wide range of reactions, and the...
The efficient recovery of noble metal nanocrystals used in heterogeneous organic transformations has...
An insight into the nano- and micro-structural morphology of a polymer supported Pd catalyst employe...
Producción CientíficaA new generation of confined palladium(II) catalysts covalently attached inside...
Les réactions pallado-catalysées permettant la formation de liaisons carbone-carbone trouvent de nom...
This study shows that polymer nanogels (well-defined cross-linked nanoparticles behaving as highly h...
We describe a solid polyphenylene support that serves as an excellent platform for metal-catalyzed r...
Palladium nanoparticles (Pd NPs) synthesized by the metal vapor synthesis technique were supported o...
Palladium was immobilized on a highly porous copolymer of 4-vinylpyridine and divinylbenzene (polyHI...
A phenolic resin-supported palladium catalyst, in which hydroxyl groups contribute to the stabilizat...
Abstract(#br)Reusable palladium nanoparticles highly dispersed in porous and hydrophilic interpenetr...
A new generation of confined palladium(II) catalysts covalently attached inside of porous organic po...
It is highly desirable to design functionalized supports in heterogeneous catalysis regarding the st...
The preparation of monolithic polyionic supports which serve as efficient heterogeneous supports for...
This report displays the procedure in preparation of fast, highly productive, reusable, and easily ...
Nanoparticles immobilized on a solid support are able to catalyse a wide range of reactions, and the...
The efficient recovery of noble metal nanocrystals used in heterogeneous organic transformations has...
An insight into the nano- and micro-structural morphology of a polymer supported Pd catalyst employe...
Producción CientíficaA new generation of confined palladium(II) catalysts covalently attached inside...
Les réactions pallado-catalysées permettant la formation de liaisons carbone-carbone trouvent de nom...
This study shows that polymer nanogels (well-defined cross-linked nanoparticles behaving as highly h...