The direct transformation of methane to methanol remains a significant challenge for
operation at a larger scale. Central to this challenge is the low reactivity of methane at …

Catalysis of C1 chemistry, especially for carbon monoxide (CO), carbon dioxide (CO 2) and
methane (CH 4), is critically important for the clean production of fuels and chemicals and …

The conversion of methane to upgraded fuels and higher-value chemicals such as
hydrogen, methanol, and olefins is a promising technology in the supply of chemicals and …

In this critical review we examine the current state of our knowledge in respect of the nature
of the active sites in copper containing zeolites for the selective conversion of methane to …

The direct conversion of methane to methanol (MTM) is a reaction that has the potential to
disrupt a great part of the synthesis gas-derived chemical industry. However, despite many …

The low‐potential furfural oxidation reaction (FFOR) on a Cu‐based electrocatalyst can
produce H2 at the anode, thereby providing a bipolar H2 production system with an ultralow …

Heme-copper oxidases (HCOs) are terminal enzymes on the mitochondrial or bacterial
respiratory electron transport chain, which utilize a unique heterobinuclear active site to …

Over the past decade, zeolites (microporous aluminosilicate minerals) have been gaining
significant popularity due to their broad applications in catalysis including the dream …

Metal–organic frameworks have drawn attention as potential catalysts owing to their unique
tunable surface chemistry and accessibility. However, their application in thermal catalysis …

Direct methane functionalization and, in particular, the selective partial oxidation to
methanol, remains an eminent challenge and a field of competitive research. The …