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 …

Organic electrosynthesis has been widely used as an environmentally conscious alternative
to conventional methods for redox reactions because it utilizes electric current as a traceless …

Reversibly adjusting the active structures of supported metal catalysts in response to
dynamic working conditions has long been pursued. Here we report the reaction …

The electrical double layer (EDL) plays a central role in electrochemical energy systems,
impacting charge transfer mechanisms and reaction rates. The fundamental importance of …

Methane oxidation to value-added chemicals under mild conditions remained a research
challenge and has attracted continuous attention, owing to fundamental interest and …

To reach a decarbonized future, the conversion of greenhouse gases into green fuels and
valuable chemicals is of crucial importance. Methane emissions are the second most …

We report the preparation and characterization of the dinuclear AuII hydroxide complex
AuII2 (L) 2 (OH) 2 (L= N, N′‐bis (2, 6‐dimethyl) phenylformamidinate) and study its …

Methane, an abundant one-carbon (C 1) resource, is extensively used in the industrial
production of vital fuels and value-added chemicals. However, current industrial methane …

In the pursuit of efficient ambient methane (CH 4) conversion, we introduce a novel MXene
combining with a nitrogen-doped graphene (MX@ NG) hybrid as a photoelectrocatalyst for …

Methane, as an earth‐abundant C1 resource, is a greenhouse gas as well as a key building
block in the chemical industry. Electrochemical conversion of methane into fuels and …