A team led by Professor Vinayak Dravid demonstrated how researchers can pull carbon directly from the air using changes in ...

Porous materials are materials with pores (cavities ... areas up to 50 cm 2 with promising performance for point-source carbon capture.

Safety scientists are speeding the invention of materials to help harvest water from air, capture carbon and produce hydrogen power ...

Capturing CO₂ from industrial emissions is vital to combating climate change, but current methods are costly and inefficient.

These molecules specifically have the affinity to store carbon dioxide and sulfur ... utilizing other cages to devise the new porous material. Materials scientist Dr. Marc Little, an Assistant ...

Scientists have developed a scalable method to produce porous graphene membranes that efficiently separate carbon dioxide. The breakthrough could significantly reduce the cost and footprint of carbon ...

Researchers at Northwestern University have expanded the potential of carbon capture technology that plucks CO2 directly from ...

The paper demonstrates the significance of a material's pore size (pockets of space within porous materials where carbon dioxide can nestle) in predicting its power to capture carbon. The ...

Researchers at Northwestern University have expanded the potential of carbon capture technology that plucks CO2 directly from the air by demonstrating ...

Hard templating, also known as nanocasting, utilizes rigid, preformed templates such as mesoporous silica or carbon. The desired material is infiltrated into the pores of the template, followed by the ...

The process to generate the carbon-negative materials also releases hydrogen gas — a clean fuel with various applications ... Depending on the conditions, the resulting substances are flakier and more ...

Researchers develop a low-carbon, high-strength cement material inspired by nature’s porous structures—offering improved ...