The influence of alkali concentration and temperature on chemical activation of halloysite
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Bibliografia
Aldabsheh I., Khoury H., Wastiels J. & Rahier H., 2015. Dissolution behavior of Jordanian clay-rich materials in alkaline solutions for alkali activation purpose. Part I. Applied Clay Science, 115, 238-247.
Slaty F., Khoury H., Wastiels J. & Rahier H., 2013. Characterization of alkali activated kaolinitic clay. Applied Clay Science, 75-76, 120-125
Wang Q., Zhang J. & Wang A., 2013. Alkali activation of halloysite for adsorption and release of ofloxacin. Applied Surface Science, 287, 54-61.
White R. D., Bavykin D. V. & Walsh F. C., 2012. The stability of halloysite nanotubes in acidic and alkaline aqueous suspensions. Nanotechnology, 23, 065705.
Yuan P., Tan D. & Annabi-Bergaya F., 2015. Properties and applications of halloysite nanotubes: recent research advances and future prospects. Applied Clay Science, 112-113, 75-93.
Slaty F., Khoury H., Wastiels J. & Rahier H., 2013. Characterization of alkali activated kaolinitic clay. Applied Clay Science, 75-76, 120-125
Wang Q., Zhang J. & Wang A., 2013. Alkali activation of halloysite for adsorption and release of ofloxacin. Applied Surface Science, 287, 54-61.
White R. D., Bavykin D. V. & Walsh F. C., 2012. The stability of halloysite nanotubes in acidic and alkaline aqueous suspensions. Nanotechnology, 23, 065705.
Yuan P., Tan D. & Annabi-Bergaya F., 2015. Properties and applications of halloysite nanotubes: recent research advances and future prospects. Applied Clay Science, 112-113, 75-93.