Catalysis is a key component of “green chemistry”, and one of the urgently needed
challenges facing chemists now is the design and use of environmentally benign catalysts …

Metal nanoparticles have received intense scientific attention in the field of catalysis. Precise
engineering of nanomaterials' size, shape and surface composition, including adsorbed …

While magnetic separation techniques have long been in use, intensive research into
superparamagnetic nanomaterials has accelerated the development of magnetically …

Catalysis is becoming a strategic field of science because it represents a new way to meet
the challenges of energy and sustainability. These challenges are becoming the main …

The ligand-assisted palladium (Pd)-catalyzed Suzuki–Miyaura cross-coupling reaction is
one of the most attractive protocols in organic chemistry and phosphines have been …

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 …

Magnetic nanoparticles have emerged recently as an alternative for the easy separation of
nanosized catalysts from reaction mixtures by employing an external magnetic field. These …

Investigation into the mechanism of transfer hydrogenation using trans-[Fe (NCMe) CO
(PPh2C6H4CH NCHR) 2][BF4] 2, where R= H (1) or R= Ph (2)(from R, R-dpen), has led …

A highly efficient, air‐and moisture‐stable and easily recoverable magnetic nanoparticle‐
supported palladium catalyst has been developed for the Suzuki, Sonogashira and Heck …

Palladium catalysts deposited over different types of silica (amorphous silica, mesoporous
molecular sieves, solids obtained by co-condensation of silicate precursors and many …