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 …

Green carbon science is defined as the “study and optimization of the transformation of
carbon‐containing compounds and the relevant processes involved in the entire carbon …

An efficient route for selective methane functionalization to liquid products, such as
methanol, without intermediate syngas production is an integral part of the movement toward …

Direct conversion of methane (CH4) to C1–2 liquid oxygenates is a captivating approach to
lock carbons in transportable value-added chemicals, while reducing global warming …

Electrochemical partial oxidation of methane to methanol is a promising approach to the
transformation of stranded methane resources into a high-value, easy-to-transport fuel or …

Electrochemical methane conversion is promising for direct conversion even at ambient
temperature, but requires delicate control of the competing reactions of the electrochemical …

Electrocatalytic oxidation of methane (CH 4) to value-added chemicals is an attractive
approach to directly use natural gas. Herein, we synthesize CuO x/V 2 O 5 composite …

The conversion of methane to value‐added chemicals by traditional reforming processes
suffers from intensive energy consumption due to its particularly strong C─ H bonds. Thus, it …

Conventional designing principal of electrocatalyst is focused on the electronic structure
tuning, on which effectively promotes the electrocatalysis. However, as a typical kind of …

Light alkane activation under mild conditions remains a substantial challenge. Here we
report an aqueous reaction system capable of selectively converting light alkanes into …