Emergent e-fuel technologies often employ the reverse water-gas shift (RWGS) reaction to convert atmospheric CO2 to CO. While efficient, this reaction requires high temperatures and complex gas ...

This study is led by Prof. Weixin Huang (Key Laboratory of Precision and Intelligent Chemistry, University of Science and Technology of China), Prof. Wenhua Zhang (Key Laboratory of Precision and ...

The synthesis of molybdenum carbide catalysts typically requires high temperature, leading to inevitable passivation in an oxygen-containing atmosphere. Developing a new route to produce molybdenum ...

Traditional catalysts in the RWGS reaction are made from precious metals, including platinum (Pt), palladium (Pd) and gold (Au), limiting the cost efficiency of the reaction. Because of this, new ...

The industry is moving away from traditional, decades-old, historically profitable processes that have significantly contributed to global carbon emissions. Increasing demand for sustainable ...

A research team led by Dr. Kee Young Koo from the Hydrogen Research Department at the Korea Institute of Energy Research (KIER) has developed a world-class catalyst for the reverse water–gas shift ...

Sponsored by Specac LtdReviewed by Maria OsipovaJun 20 2025 The petrochemical sector is close to a major transformation, whereby emissions once considered a burden have become the foundation for more ...