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 …

Rapidly growing demand of functional polymers in various interdisciplinary areas of
research has accentuated the need for modern synthetic tools to develop advanced …

Pickering emulsions are an excellent platform for interfacial catalysis. However, developing
simple and efficient strategies to achieve product separation and catalyst and emulsifier …

Magnetic nanoparticles are a highly valuable substrate for the attachment of homogeneous
inorganic and organic containing catalysts. This review deals with the very recent main …

The work-up of chemical reactions by standard techniques is often time consuming and
energy demanding, especially when chemists have to guarantee low levels of metal …

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 …

Turn you inside out: A novel method for performing in situ separation and recycling of
submicrometer‐sized solid catalysts is developed based on the pH‐triggered inversion of …

A novel ionic liquid functionalized magnetic nanoparticle was prepared by anchoring an
imidazolium ionic liquid bearing triethylene glycol moieties on the surface of silica-coated …

An efficient magnetic carbon nanocomposite supported Pd nanoparticle catalyst has been
prepared by a three-step process in this report. The morphology, inner structure, and …

Carbon is anything but a new material, yet ubiquitously applicable for many catalytic
transformations in modern organic chemistry. It is highly versatile, as it occurs as …