The design of heterogeneous catalysts relies on understanding the fundamental surface
kinetics that controls catalyst performance, and microkinetic modeling is a tool that can help …

Hydrogen is the most effective and sustainable carrier of clean energy, and liquid-phase
hydrogen storage materials with high hydrogen content, reversibility and good …

To meet the requirements of potential applications, it is of great importance to explore new
catalysts for formic acid oxidation that have both ultra-high mass activity and CO resistance …

The electrocatalytic reduction of CO2 into value-added chemicals such as hydrocarbons has
the potential for supplying fuel energy and reducing environmental hazards, while the …

Hydrogen (H 2) is regarded as a novel energy carrier with huge development potential, and
it will be essential in future clean energy systems. Given the existing challenges in direct H 2 …

Scaling relationships are theoretical constructs that relate the binding energies of a wide
variety of catalytic intermediates across a range of catalyst surfaces. Such relationships are …

Electrochemical CO2 reduction under ambient conditions is a promising pathway for
conversion of CO2 into value‐added products. In recent years, great achievements have …

Strong metal–support interaction (SMSI) is a phenomenon commonly observed on
heterogeneous catalysts. Here, direct evidence of SMSI between noble metal and 2D TiB2 …

A widely used food and flavor compound, δ-decalactone (DDL), was produced from catalytic
transfer hydrogenation of 6-amyl-α-pyrone (6PP), which is a biomass-based platform …

Single-site heterogeneous catalysis with isolated Pd atoms was reported earlier, mainly for
oxidation reactions and for Pd catalysts supported on oxide surfaces. In the present work, we …