A research team led by Profs. BAO Xinhe and GAO Dunfeng from the Dalian Instituteof Chemical Physics of the Chinese Academy of Sciences, has developed a novel strategy fordirect electrocatalytic ...

Researchers have shown that placing individual metal atoms on carefully chosen supports can dramatically sharpen the selectivity and yield of chemical reactions central to plastic recycling and ...

Researchers at The University of Osaka have developed a catalyst that uses vibrational energy to convert carbon dioxide (CO2) ...

All humans need clean water to live. However, purifying water can be energy-intensive, and therefore there is great interest in improving this process. Researchers at Tohoku University have recently ...

(Nanowerk Spotlight) Electrochemical conversion of carbon dioxide to carbon monoxide represents an effective approach to both reduce greenhouse gas emissions and produce valuable chemical feedstocks.

"For practical applications of CO2 reduction catalysts, achieving high selectivity across a wide potential range is essential but remains a significant challenge," Professor Jin Kon Kim at Pohang ...

Green hydrogen production technology, which utilizes renewable energy to produce eco-friendly hydrogen without carbon emissions, is gaining attention as a core technology for addressing global warming ...

A new type of catalyst that uses vibrational energy to convert carbon dioxide (CO2) into carbon monoxide (CO) has been ...

As the severity of climate change and carbon emissions becomes a global concern, technologies to convert carbon dioxide (CO₂) into resources such as chemical fuels and compounds are urgently needed.

Scientists from the University of Science and Technology of China have created a novel “Janus” dual-atom catalyst (FeCo-N 3 O 3 @C), with Fe and Co atoms coordinated synergistically through an N-O ...