A proof-of-concept system developed in the lab of Professor Ted Sargent uses manganese oxide and electricity to pull CO₂ efficiently from real-world air conditions.

Over the past decades, energy engineers have introduced a wide range of systems and approaches aimed at mitigating climate change and preserving the environment on Earth. Given that global dependence ...

Directly capturing CO2 from the air has become one of the most talked about tools in the fight against climate change. But much of the conversation revolves around a single, seemingly magical number: ...

This story was originally published on Facilities Dive. To receive daily news and insights, subscribe to our free daily Facilities Dive newsletter. Researchers have developed an air filter capable of ...

LONDON, ENGLAND - MARCH 12: Two commercial airliners appear to fly close together as the pass over London on March 12, 2012 in London, England. (Photo by Dan Kitwood/Getty Images) Can Direct Air ...

Commentary: In essence, direct air capture involves large fans that draw outdoor air to capture carbon dioxide and remove it.

A rendering of a direct air capture system. Source: DOE. Northwestern University will lead a regional Direct Air Capture (DAC) hub in the Midwest, funded by nearly $4 million from the U.S. Department ...

Earlier this year, scientists at the University of California, Berkeley, filled a device with bright-yellow powder, connected it to a tube, and stuck the tube through the wall of a lab. Over the next ...

The MarketWatch News Department was not involved in the creation of this content. Climate technology sector sees explosive growth as companies invest billions in carbon removal solutions to meet ...