Abstract Power-to-methane (P2M) processes, by converting electricity from renewable
energy to H 2 and then into other high value-added and energy-intense chemicals in the …

The selective reduction of carbon dioxide (CO 2) as the primary component of greenhouse
gas, remains a significant challenge in photocatalysis. Here, we present a novel strategy of …

The design of photocatalysts for the stable and efficient photocatalytic reduction of CO 2
without sacrificial agents remains challenging. In this study, Fe atoms were anchored on the …

CO2 hydrogenation to methane, namely, CO2 methanation or Sabatier reaction, is a
significant approach to convert CO2 and H2 to storable and transportable CH4. Low reaction …

Engineering the specific active sites of photocatalysts for simultaneously promoting CO 2
and H 2 O activation is important to achieve the efficient conversion of CO 2 to hydrocarbon …

Au supported on Ti has gained popularity as a highly stable and efficient catalyst in various
fields. In this study, we report the use of Au/Ti as electrocatalysts for both electrochemical …

The study of the process and mechanism of CO 2 activation and the development of low-
temperature, high-activity and selective catalysts for CO 2 methanation are current research …

Catalytic hydrogenation of CO 2 using renewable hydrogen not only reduces greenhouse
gas emissions, but also provides industrial chemicals. Herein, a Co-Fe bimetallic catalyst …

Abstract Amorphous ZrO 2 and Mn addition to ZrO 2 catalysts were studied for CO 2
hydrogenation to formic acid and acetic acid via an indirect hydrogen source, ie, hydrazine …

The supercritical water gasification (ScWG) technology is a promising alternative for H 2-rich
gas production from renewable sources, such as residual glycerol from biodiesel …