The hydrogenation of carbon dioxide (CO2) to formic acid is of great importance due to its
useful properties in the chemical industry. In this work, we have prepared a novel metal …

The catalytic reactivity of the metal center to H 2 and the stability of the metal-hydride
intermediate are vital for enhancing the CO 2 hydrogenation efficiency. It was found that …

In this work, we report the design of a two-dimensional (2D) isostructural metal–organic
framework containing Pd (II) active sites, using a bipyridyl dicarboxylate linker (Mg …

Glycerol and carbonates (used as CO 2 sources) were simultaneously converted to
carboxylic acid salts under mild hydrothermal media over supported Pt catalysts. The …

The development of active, cost-effective heterogeneous catalysts for the hydrogenation of
CO 2 to chemicals is currently progressing rapidly. In this study, we have demonstrated a …

The catalytic reactivity of molecular Rh (III)/Ir (III) catalysts immobilized on two-and three-
dimensional Bipyridine-based Covalent Triazine Frameworks (bpy-CTF) for the …

The conversion of the ubiquitous greenhouse gas CO2 to valuable organic products is much
sought after. Herein, the hydrogenation of CO2 to C1 products with an 80% yield in water is …

The synthesis and decomposition of formic acid (FA) in aqueous triethylamine (NEt3) with
solid molecular phosphine catalysts is demonstrated. A Ru-catalyst based on the polymeric …

Understanding the structure-activity relationship of materials that are active for the CO 2
electrochemical reduction reaction (CO 2 ERR) is crucial for developing stable, high …

Carbon Dioxide Reduction with Hydrogen on Carbon‐Nanotube‐Supported Catalysts under
Supercritical Conditions - Bogdan - 2019 - Energy Technology - Wiley Online Library Skip to …