Scientists at EPFL have developed advanced atom-thin graphene membranes with pyridinic-nitrogen at pore edges, showing unprecedented performance in...
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Scientists at EPFL have made a significant breakthrough in carbon capture technology by developing advanced atom-thin graphene membranes. These new membranes, enhanced with pyridinic nitrogen at the pore edges, show exceptional performance in capturing carbon dioxide (CO2), marking a major step towards more efficient and cost-effective carbon capture solutions. As the world faces the urgent […]
Scientists at EPFL have developed advanced atom-thin graphene membranes with pyridinic-nitrogen at pore edges, showing unprecedented performance in...
Scientists at EPFL have developed advanced atom-thin graphene membranes with pyridinic-nitrogen at pore edges, showing unprecedented performance in...
Separating gases is a critical process in many industries, from medical oxygen and nitrogen production to carbon capture and natural gas purification....
DGIST's Electrical Engineering and Computer Science Professor Jang Jae-eun and Professor Kwon Hyuk-jun and their research team have developed a...
A new World Economic Forum report released Wednesday outlines a roadmap for transforming the global building sector to combat climate change and...
Will someone show me when, in the entire history of Earth, carbon dioxide definitively caused global warming?
Researchers from Eindhoven University have created a new type of soft robotic hand made from liquid crystals and graphene. This innovative design...
BURN designs, manufactures, and distributes aspirational fuel-efficient cooking products that save lives and forests in the developing world.BURN has...
WASHINGTON (AP) — Catastrophic Canadian warming-fueled wildfires last year pumped more heat-trapping carbon dioxide into the air than India did...