The reaction also generates acetic acid and its developers believe it can compete economically with current manufacturing ...

operate by a similar concept but utilize methanol as a fuel rather than hydrogen. FIGURE 3. Schematic representation of a hydrogen fuel cell, proton transport through the membrane, and the chemical ...

Hazelnut protein (30 mg/mL) was added to the hydroxyl radical oxidation system and then oxidized at 37 °C for 1 h. The reaction was terminated by adding ... 10% acetic acid, 45% methanol) for 30 min ...

solution (also dissolved in methanol). The mixture was subjected to vigorous stirring for 10 min. The solution was put into a heated oil bath maintained at a temperature of 50°C and allowed to undergo ...

The company has massive low-carbon methanol projects in the works in Chile, Uruguay, Brazil, the US, and Tasmania. The cost ...

Methanol, important for the manufacture of many everyday goods and for its green energy potential, may soon be produced faster and more efficiently thanks to a collaboration that included two Oregon ...

Yale chemist Hailiang Wang and his colleagues report their most recent success in turning industrial emissions of CO2, a major greenhouse gas causing climate change, into methanol, a common liquid ...

OSU's dual-site electrocatalyst significantly boosts methanol production from CO2, showcasing advancements in green energy ...

Two new catalyst systems take aim at these problems. One catalyst splits ethanol to give hydrogen at 270 °C and produces ...

Methanol, important for the manufacture of many everyday goods and for its green energy potential, may soon be produced faster and more efficiently.

Yale University scientists have developed a new process that converts CO2 from industrial emissions into renewable methanol ...