During this project, we managed to obtain a series of very interesting results on the nucleation and growth of sulphates, as well as on the transformation of sulphates into carbonates.
In this project, atomic force microscopy has been used to study the growth of gypsum on its main faces. We have been able to observe, for the first time, that the different faces have different growth mechanisms. A manuscript describing these results has been submitted for review to the journal Geochimica et Cosmochimica Acta.
The transformation of gypsum to bassanite in solutions with a high salt concentration, as well as the reverse reaction, i.e. the transformation of bassanite to gypsum, have also been studied using in situ Raman. These results, combined with results obtained in synchrotron experiments, have been published in the Journal of Cleaner Production.
Currently, we are finishing a third manuscript dealing with the transformation of gypsum into vaterite (a type of calcium carbonate used in different industries). This study, in which we have combined measurements made using an in situ Raman with measurements made ex situ, we have proposed a method of sulphate carbonation in which we use as raw material synthetic or natural gypsum and carbonate solutions, which were obtained by CO2 capture. This method therefore allows to capture CO2 and, at the same time, to obtain value-added by-products (i.e. vaterite and sulphate solutions).
During this period, additional side projects have focused on foliar fertilisation research, exploring various compounds pertinent to the project, such as sulphate solutions and carbonate particles. These efforts have resulted in remarkable findings that have been disseminated through publications in different journals.