In a significant advance for climate change mitigation efforts, we have developed a new material that could revolutionize carbon dioxide capture. Our...
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In a significant advance for climate change mitigation efforts, we have developed a new material that could revolutionize carbon dioxide capture. Our study, published in Advanced Materials, introduces porous polymeric electrodes (PPEs) that dramatically enhance the efficiency of removing CO2 from low-concentration sources.
In a significant advance for climate change mitigation efforts, we have developed a new material that could revolutionize carbon dioxide capture. Our...
Researchers from Tokyo Metropolitan University have made strides forward in realizing industrial conversion of bicarbonate solution made from...
The current high levels of carbon dioxide (CO2) emissions are a significant contributor to global warming. Cement-based materials have demonstrated...
New digital solution and strategic partnership with Wabash Valley Resources aim to advance clean ammonia production and CO2 sequestration.
In a new agreement, Ørsted will sell carbon dioxide removal (CDR) credits amounting to 330,000 tonnes of CO2 to Equinor over a ten-year period. This...
In a new agreement, Ørsted will sell carbon dioxide removal (CDR) credits amounting to 330,000 tonnes of CO2 to Equinor over a ten-year period. This...
Scientists have achieved a groundbreaking success by developing a special type of material known as 3D photonic crystals, which can completely block...
Nokian Tyres has signed a development agreement with a Swedish biomaterial science company Reselo AB to develop their renewable material Reselo Rubber...
Nokian Tyres has signed a development agreement with a Swedish biomaterial science company Reselo AB to develop their renewable material Reselo Rubber...
Sharing infrastructure for transporting and storing captured carbon dioxide (CO2) emissions across multiple industrial facilities could cut costs by...