A new electrode design developed at MIT boosts the efficiency of electrochemical reactions that turn carbon dioxide into ethylene and other products. As the world struggles to reduce greenhouse gas ...
The atmosphere is constantly changing. Its composition has varied regularly over the course of the planet's climatic epochs, ...
Capturing carbon dioxide from the hot industrial exhaust of cement and steel plants requires cooling the exhaust from around ...
MIT engineers have developed an innovative electrode design that convert carbon dioxide into useful products, such as fuels ...
Global carbon dioxide emissions reached another record high in 2024. Researchers say there is ‘no sign’ the world has reached ...
The oceans play a pivotal role in drawing down atmospheric carbon dioxide (COâ‚‚) and have so far acted as a brake on the full ...
There is a 50% chance that global warming will consistently exceed 1.5 degrees Celsius in the next six years, according to a ...
The MOF can capture CO2 over many cycles at 300 C, which is a typical temperature of the exhaust streams from cement and steel plants. The zinc hydride groups in the MOF reversibly bind and release ...
The researchers contextualized just how exhaustive and damaging this industry is to Earth. New research highlights concerning ...
In a world coping with climate setbacks and Donald Trump’s re-election in the United States, the growing prominence of ...
F1 produced 223,031 metric tons of carbon dioxide equivalent in 2022 ... such as reducing on-site personnel at races and ...
COF-999, a covalent organic framework, is designed to capture CO2 from open air using its intricate porous structure. Under a microscope, COF-999 appears as tiny particles filled with millions of ...