At center left is one of the crystalline building blocks of a thermally stable metal-organic framework (MOF), known as ZnH-MFU-4l, that is able to reversibly and selectively capture the greenhouse gas ...

A new study shows the potential of an MOF to capture CO2 with strong low-pressure uptake and efficient regeneration under mild conditions.

Capturing and storing the carbon dioxide humans produce is key to lowering atmospheric greenhouse gases and slowing global warming, but today’s carbon capture technologies work well only for ...

UC Berkeley chemists published a research paper on capturing carbon dioxide from the air using covalent organic frameworks, or COFs, on Wednesday. UC Berkeley’s department of chemistry graduate ...

UC Berkeley chemists have discovered a way to capture carbon dioxide, or CO2, at high temperatures, making it possible to store and release emissions from industrial exhaust streams. These findings ...

Scientists at Oregon State University have discovered a method to significantly enhance the carbon dioxide absorption capacity of a chemical structure, more than doubling its effectiveness for ...

Scientists have found a way to more than double the uptake ability of a chemical structure that can be used for scrubbing carbon dioxide from factory flues. Oregon State University scientists have ...

In the face of rising CO2 levels, scientists are searching for sustainable ways of pulling carbon dioxide out of the air, so-called direct air capture. A new type of porous material, a covalent ...