The process of separating useful molecules from mixtures of other substances accounts for 15% of the nation's energy, emits 100 million tons of carbon dioxide and costs $4 billion annually. In a new ...

D-COFs developed by Tokyo researchers demonstrate low heat of adsorption and high CO2 selectivity, paving the way for ...

Scientists at the University of Michigan have managed to flip the entire cement production process on its head, drastically ...

Porous organic crystals with superior properties as CO2 adsorbents were created by researchers at Institute of Science Tokyo.

The direct air capture industry has ambitious plans to pull carbon dioxide from the atmosphere, but it’s vying for limited ...

Cambridge scientists turn pollution into fuel in climate breakthrough - Solar-powered reactor takes inspiration from ...

Porous organic crystals with superior properties as CO2 adsorbents were created by researchers at Institute of Science Tokyo.

Porous organic crystals with superior properties as CO2 adsorbents were created by researchers at Institute of Science Tokyo. Owing to the novel ...

Unfortunately, there isn't an enzyme for many reactions we would sorely like to catalyze—things like digesting plastics or ...

Combustion engines only use a quarter of the fuel’s potential energy while the rest is lost as heat through exhaust. Now, a ...

Scientists have developed a revolutionary catalyst that not only converts CO2 into valuable products but actually increases in activity over time. Made from tin microparticles on a nanotextured carbon ...

A nanoscale tin catalyst boosts sustainable conversion of CO2 into valuable products, offering a blueprint for ...