In this study,various chemical treatments were performed on clay-rich media to investigate their effects on hydrogen adsorption performance.We unequivocally demonstrated that acid-treated samples exhibited signifi-can...In this study,various chemical treatments were performed on clay-rich media to investigate their effects on hydrogen adsorption performance.We unequivocally demonstrated that acid-treated samples exhibited signifi-cant structural changes compared with those treated with alkali solutions.Gas adsorption isotherms and powder X-ray diffraction analyses clearly revealed that the acid treatment of clayey materials not only increased their surface area,but also enhanced hydrogen sorption uptake,increased interstratification,and reduced particle size.Most importantly,we succeeded in rationalizing the improvement in hydrogen uptake by sequentially applying purification,followed by acid treatment.展开更多
基金supported by the European joint pro-gram on radioactive waste management for financial support(Grant ID:847593)for the project titled Hydrogen(H 2)Uptake and Physisorp-tion Mechanism in Micro-and Nano-porous Systems Application to Clayrock-hosted Nuclear Waste Repositories.M.R.T acknowledges Uni-versitéGrenoble Alpes,Institut des Sciences de la Terre(ISTerre),and eurad for supporting a postdoctoral fellowship.
文摘In this study,various chemical treatments were performed on clay-rich media to investigate their effects on hydrogen adsorption performance.We unequivocally demonstrated that acid-treated samples exhibited signifi-cant structural changes compared with those treated with alkali solutions.Gas adsorption isotherms and powder X-ray diffraction analyses clearly revealed that the acid treatment of clayey materials not only increased their surface area,but also enhanced hydrogen sorption uptake,increased interstratification,and reduced particle size.Most importantly,we succeeded in rationalizing the improvement in hydrogen uptake by sequentially applying purification,followed by acid treatment.
