The porous material, dubbed NOTT-300, has the potential to reduce fossil fuel emissions through the cheaper and more efficient capture of polluting gases such as carbon dioxide (CO2
) and sulphur dioxide (SO2
Part of the project was undertaken at Diamond, the UK’s national synchrotron science facility, where advanced powder diffraction experiments were carried out on the High Resolution Powder Diffraction beamline (I11). The data obtained enabled the team to determine the crystal structure of the material and to understand the mechanism by which CO2/SO2 is captured by this material.
The research, published in the scientific journal Nature Chemistry, demonstrates how the exciting properties of NOTT-300 could provide a greener alternative to existing solutions to adsorb CO2 which are expensive and use large amounts of energy.
The image to the right shows the crystal structure of NOTT-300