A team of scientists in the United Kingdom have made an exciting discovery that could help combat climate change. They have identified a porous material that has the potential to store significant amounts of greenhouse gases, offering a new tool to tackle environmental issues.
The breakthrough was detailed in a newly published paper in the journal Nature Synthesis. Using computational models, the scientists were able to develop a material with specific features that make it ideal for storing carbon dioxide and sulphur hexafluoride, two powerful greenhouse gases.
Engineering professor Marc Little from Edinburgh’s Heriot-Watt University expressed the significance of this discovery, emphasizing the need for innovative porous materials to address major societal challenges. The new material, resembling a cage composed of smaller molecules, is an organic supermolecule made from oxygen, nitrogen, and fluorine.
While planting trees remains an effective method for absorbing carbon, it is a slow process. Little highlighted the value of human-made molecules in capturing greenhouse gases more efficiently and quickly from the environment.
In addition to this breakthrough, other innovative materials are being explored as potential solutions for carbon sequestration. These include a two-dimensional boron structure with a large surface area and the integration of baking soda into concrete to help absorb carbon dioxide from the atmosphere.
Despite these promising developments, scientists like Little are tasked with overcoming the hurdle of transitioning lab experiments into viable products for the market. It will require collaboration between academia and industry to find ways to scale up these materials for widespread implementation in the fight against climate change.