Given their numerous remarkable properties such as chemical stability, high surface areas,
and well-organized porous systems, zeolites have long been explored in a variety of …

Renewable electricity has become a more accessible, flexible, and widespread form of
energy that is expected to help achieve carbon neutrality by 2050. The electrification of …

This perspective illustrates the electromagnetic induction heating technology for a rational
heat control in catalytic heterogeneous processes. It mainly focuses on the remarkable …

The tailored chemical synthesis of binary and ternary alloy nanoparticles with a uniform
elemental composition is presented. Their dual use as magnetic susceptors for induction …

Magnetic heating has recently been demonstrated as an efficient way to perform catalytic
reactions after deposition of the heating agent and the catalyst on a support. Here we show …

Dry reforming of methane is a highly endothermic reaction that produces syngas from CH 4
and CO 2. It operates at 800–1000° C to meet thermodynamic constraints, achieve high …

Low-and high-density polyethylene (LDPE/HDPE) have been selectively depolymerized,
without added H2, to C2–C20+ alkanes/alkenes via energy-efficient radio frequency …

Iron nanostructures have attracted tremendous attention over the last few years as excellent
catalysts applied in different areas. The cost-effectiveness and environmentally friendly …

It is well stablished that heating efficiency of magnetic nanoparticles under radiofrequency
fields is due to the hysteresis power losses. In the case of microwires (MWs), it is not clear at …

Inductive heating has developed into a powerful and rapid indirect heating technique used
in various fields of chemistry, but also in medicine. Traditionally, inductive heating is used in …