A catalyst design developed in the lab of Professor Ted Sargent increases efficiency, turning captured CO₂ into high-purity ethylene for plastics and packaging.

Climate change is one of the most pressing global challenges in the present times. Increasing carbon dioxide (CO2) ...

Carbon dioxide adsorption and capture technologies represent a pivotal strategy in addressing the escalating challenges of climate change. These methods, which range from direct air capture employing ...

The process of cleaning the water that flows down our drains and toilets can drastically raise carbon dioxide levels in nearby waterways. Two Johns Hopkins University scientists have found an ...

Imagine if the leftover stalks from South Dakota cornfields could power the next generation of electric vehicles, AI data ...

Finished carbon fibers derived from bitumen. Photo Credit, all images: UBC Applied Science/Paul Joseph A new process developed at the University of British Columbia (UBC, Canada) has the potential to ...

"If we use those learnings and designs, there is a clear path for how to go from lab discovery to carbon removal on a meaningful scale." Matthew Kanan is also director of Stanford's TomKat Center for ...

The latest research from Shenzhen University and Jinan University has unveiled advancements in the application of carbon fiber composites within civil engineering, with a focus on both the recycling ...

IRVING, Texas--(BUSINESS WIRE)--Fluor Corporation (NYSE: FLR) announced today that it has been awarded a contract for front-end engineering and design (FEED) and procurement services by Cormorant ...