The team estimates that just 200 grams (7 ounces) of material could remove 20 kilograms (44 pounds) of carbon dioxide in a ...

Research suggests that urban areas could reduce their carbon dioxide (CO2) emissions by optimizing their urban form. However, ...

Research suggests that urban areas could reduce their carbon dioxide (CO2) emissions by optimizing their urban form. However, the relationship between ...

While systems that can generate energy from renewable sources are becoming increasingly widespread, it might take a while ...

Climate change for decades has been a focal point of concern globally. Its effect causes a range of disruptions that are ...

Because the material is energy-efficient to use and unusually durable, it could help significantly cut the cost of direct air capture plants that capture carbon dioxide from the atmosphere.

A typical large tree can suck as much as 40 kilograms of carbon dioxide out of the air over the course of a year. Now ...

A typical large tree can suck as much as 88 pounds of carbon dioxide out of the air over the course of a year. Now scientists at the University of California, Berkeley say they can do the same job ...

Humans are emitting far more planet-heating carbon-dioxide (C02) than all the world's volcanoes put together. But scientists hope that by studying climate change in Earth's distant past, they can ...

State-of-the-art features, including enhanced contamination control and energy-efficient designs, are making CO2 incubators increasingly attractive to clinics and research laboratories. “Carbon ...

While atmospheric carbon dioxide (CO2) levels are higher than ever before, an estimated 2.5 billion additional people are expected to integrate into urban areas worldwide by 2050, making reduced urban ...

Its porous design increases its surface area, which means more places to hold on to CO2 molecules. As a result, it captures carbon dioxide at a rate that is “at least 10 times faster” than ...