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

Scientists have taken a critical next step in creating a scalable process to remove carbon dioxide (CO2) from the air and 'recirculate' it as a renewable fuel. Chemists now describe their latest ...

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

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

绿色氢气作为一种高效、可持续的能源载体，被视作未来能源系统的重要组成部分。根据国际能源署（IEA）的预测，到2050年，全球氢气需求将达到约亿吨以上，其中大部分来源于绿色氢气。当全球应对气候变化和能源转型的压力日益加剧，如何提高绿色氢气的生成效率？

随着全球应对气候变化和能源转型的压力日益加剧，绿色氢气作为一种高效、可持续的能源载体，越来越受到关注。在绿色氢气的生产过程中，PEMWE电解水（质子交换膜电解水）技术是当前最为前沿的技术之一，其高效分解水产生氢气的能力使其在全球绿色氢能的产业化进程中占据重要地位。

Scientists have developed a revolutionary catalyst that not only converts CO2 into valuable products but actually increases ...

Researchers have developed a sustainable catalyst that increases its activity during use while converting carbon dioxide (CO2) into valuable products. This discovery offers a blueprint for designing ...

Bubbles of CO2 passing through the electrochemical reactor dissolve in water and react with the help of the electrocatalyst to form various products.

Researchers have developed a sustainable catalyst that increases its activity during use while converting carbon dioxide (CO2 ...

to develop and commercialize advanced electrocatalyst materials for green hydrogen production. The companies will engineer low-iridium catalysts to significantly reduce the amount of this rare and ...