For nearly a century, the Fischer–Tropsch (FT) reaction has been subject of intense debate.
Various molecular views on the active sites and on the reaction mechanism have been …

The catalytic hydrogenation of CO 2 with renewable H 2 is considered as one of the most
practical approaches for the reduction of CO 2 and the synthesis of valuable chemicals and …

Transforming carbon dioxide into valuable chemicals and fuels, is a promising tool for
environmental and industrial purposes. Here, we present catalysts comprising of cobalt …

Abstract Constructing Co-Fe bimetallic catalyst is of high research value for CO 2 conversion
based on its outstanding traits, however, its activity-structure relationship is still confusing …

The mechanistic steps that underlie the formation of higher hydrocarbons in catalytic carbon
monoxide (CO) hydrogenation at atmospheric pressure over cobalt-based catalysts (Fischer …

Fischer-Tropsch synthesis (FTS) is an industrial catalytic process that converts a mixture of
CO and hydrogen into long-chain hydrocarbons. These products are used as clean …

Abstract Fischer-Tropsch (FT) synthesis, converting syngas to hydrocarbons, provides a
green alternative for fuel production. Cobalt is one of the most intensively studied FT …

Selective conversion of syngas (CO/H 2) to higher alcohols (C 2+ OH) is of great interest but
presents a significant challenge in keeping an appropriate balance between the carbon …

Efficient and more sustainable production of transportation fuels is key to fulfill the ever-
increasing global demand. In order to achieve this, progress in the development of highly …

Methanation is capable of chemical storage of fluctuating renewable energy, which requires
fundamental understanding of the dynamics of the kinetic processes taking place on the …