The catalytic formation of C–C bonds is one of the most useful transformations in organic
synthesis. Over the last decade, the use of transition metal nanoparticles (NPs) in catalysis …

The Suzuki cross-coupling reaction, which is commonly referred to simply as the “Suzuki
reaction” and uses palladium as a catalyst, has become an efficient tool for constructing C–C …

Highly charged hydrophilic superparamagnetic Fe3O4 colloidal nanocrystal clusters with an
average diameter of 195 nm have been successfully synthesized using a modified one-step …

Abstract Monodisperse Ni/Pd core/shell nanoparticles (NPs) have been synthesized by
sequential reduction of nickel (II) acetate and palladium (II) bromide in oleylamine (OAm) …

Chemically derived graphene (CDG) was prepared by hydrazine hydrate reduction of
graphene oxide and used as support for palladium nanoparticles (Pd NPs) generated ex situ …

This work describes the preparation and characterization of a library of alginate-supported
palladium nanoparticles together with their catalytic capabilities to promote the Suzuki …

Recent advances in the synthesis of polymer-immobilized clusters and metal nanoparticles
and their use in catalysis of many organic reactions were presented. The main types of …

The concept of the nanoreactor valuably contributes to catalytic applications of
supramolecular chemistry. Therewith molecular engineering may lead to organic …

Five novel dioxime ligands (L (1-5) H 2) were synthesized in various yields under suitable
conditions. Novel nano-Fe 3 O 4-supported compounds (Fe 3 O 4/L (1-5)) based on dioxime …

A new mesoporous Cu-MPTA-1 nanocatalyst has been synthesized via a simple and facile
in situ radical polymerization of triallylamine in the presence of an organic–organic self …