A team of researchers has developed a new type of material that could make the process of separating gases cleaner and more energy-efficient.

The breakthrough, published in the Nature Chemistry journal could play a key role in reducing carbon emissions from industrial gas use, such as in natural gas production, carbon capture and hydrogen generation – important steps in the move away from fossil fuels.

New materials

Gas separation is widely used to remove carbon dioxide (CO₂) from mixed gases, but current methods are often costly and energy-intensive. The new materials, developed by researchers at the Universities of Strathclyde and Sheffield, are crystals that behave in a unique way. They capture CO₂ using a mechanism inspired by how it dissolves in some liquids, rather than filtering it through tiny holes like many current technologies.

The crystals are lined with fluorine-based chains, which respond to pressure by creating temporary openings that trap CO₂ gas. Methane, the main component of natural gas, is pushed out in the process, resulting in a cleaner product.

Industrial uses

Importantly, the team can fine-tune the material to work under different conditions by adjusting the length of the molecular chains inside the crystals. This flexibility could make the materials suitable for a wide range of industrial uses.

Professor Ashleigh Fletcher from the University of Strathclyde’s Department of Chemical & Process Engineering, said:

Our discovery that non-porous silver coordination polymers can selectively capture CO₂ through a dissolution-like mechanism opens up exciting possibilities for next-generation gas separation technologies.

By offering precise control over gas separation with less energy input, it is hoped that the discovery could lead to more sustainable and cost-effective methods in sectors including energy, manufacturing and environmental management.