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 use of well-defined materials in heterogeneous catalysis will open up numerous new
opportunities for the development of advanced catalysts to address the global challenges in …

High-entropy alloys (HEAs), which are defined as near-equimolar alloys of five or more
elements, are attracting ever increasing attention because of the unique properties in a …

Abstract NiFe and CoFe (MFe) layered double hydroxides (LDHs) are among the most
active electrocatalysts for the alkaline oxygen evolution reaction (OER). Herein, we combine …

Electrochemical CO 2 reduction is a promising approach for upgrading excessive CO 2 into
value-added chemicals, while the exquisite control of the catalyst atomic structures to obtain …

Water is the only available fossil-free source of hydrogen. Splitting water electrochemically is
among the most used techniques, however, it accounts for only 4% of global hydrogen …

As a key structural parameter, phase depicts the arrangement of atoms in materials.
Normally, a nanomaterial exists in its thermodynamically stable crystal phase. With the …

Hydrogen evolution reaction (HER) is a critical process due to its fundamental role in
electrocatalysis. Practically, the development of high-performance electrocatalysts for HER …

Bifunctional catalysis coupling CO2 to methanol and methanol to hydrocarbons is a
promising strategy for the direct hydrogenation of CO2 into high-value chemicals. However …

The selective methanation of CO2 is an important research area to meet the net-zero
emission targets. Furthermore, it is crucial to develop solutions to achieve carbon neutrality …