Cement production creates nearly as much CO2 as passenger cars, but replacing limestone with basalt could cut emissions by up ...

The Humber estuary in northern England is ideally suited to access abundant clean energy and massive carbon dioxide (CO₂) ...

Scientists at MIT isolated an unstable peroxide-like boron compound that can transfer oxygen atoms and react with carbon ...

A research team led by Hee-jung Lee, senior researcher at Korea Institute of Materials Science (KIMS), in collaboration with ...

As the world works to alter the trajectory of climate change, most attention focuses on reducing humanity's reliance on ...

(counterclockwise from upper right): Senior Researcher Hyung-Ki Min, Principal Researcher Hae-Gu Park, Principal Researcher Jeong-Rang Kim, Researcher Min Jun Park, Researcher Tae Jeong Lee, KRICT-UST ...

Moon soil mineral becomes a working carbon dioxide recycling catalyst when sunlight and heat reshape its surface chemistry.

Verified through a scaled-down prototype, the technology represents ways to overcome logistical and cost barriers of in-space ...

Polymerized ionic liquids (PILs) are known for their strong ability to absorb carbon dioxide, as well as their stability as ...

Quantum computing promises to reshape energy by enabling advanced simulations and accelerating materials discovery for carbon ...

So-called rock-eating microorganisms obtain their energy to convert carbon dioxide (CO2) from inorganic sources and make up the vast majority of biomass producers. Using electron microscopy and ...

Eucalyptus bark, usually stripped from logs and treated as waste, could be repurposed to help clean polluted water, filter ...