In a significant advance for climate change mitigation efforts, we have developed a new material that could revolutionize carbon dioxide capture. Our...
Vous n'êtes pas connecté
A groundbreaking new building material that can absorb carbon dioxide (CO2) from the atmosphere has been developed by a student at University College London (UCL). This innovative material, created by a master’s student in UCL’s Bio-Integrated Design program, could significantly reduce the carbon emissions of the construction industry if it is widely used. The new […]
In a significant advance for climate change mitigation efforts, we have developed a new material that could revolutionize carbon dioxide capture. Our...
In a significant advance for climate change mitigation efforts, we have developed a new material that could revolutionize carbon dioxide capture. Our...
Scientists say they have developed a structure that can absorb and reduce vibrations of engineering and mechanical gadgets more effectively than...
Scientists say they have developed a structure that can absorb and reduce vibrations of engineering and mechanical gadgets more effectively than...
Buildings are a major driver of global heating, contributing 37% of all greenhouse gas emissions. While we know how to reduce operational carbon to...
An International study led by UAB researcher Ariane Arias-Ortiz, and published in Global Change Biology, has analysed methane gas fluxes in over a...
The current high levels of carbon dioxide (CO2) emissions are a significant contributor to global warming. Cement-based materials have demonstrated...
New research published in Business Strategy and the Environment based on information from G7 countries demonstrates that green finance—loans,...
New research published in Business Strategy and the Environment based on information from G7 countries demonstrates that green finance—loans,...
QatarEnergy is building a new solar power mega project that will more than double Qatar’s solar energy production, significantly contributing to...