Preparation of effective and fast extraction media for palladium (II) using microcapsules

• Autorzy: Minamihata K. , Kiyoyama S. , Shiomori K. , Yoshida M. , Hatate Y.
• Języki publikacji: EN

Abstrakty

EN

Microcapsules containing tri-n-octylamine as an extractant with the diameter of less than 25µm were prepared by using SPG membrane emulsification and insitu polymerization method. The morphologies of microcapsules, the encapsulation efficiencies of tri-n-octylamine, the extraction properties of palladium (II) from hydrochloric acid solution and the back extraction properties of palladium (II) from microcapsules were investigated. The average diameter of obtained microcapsules was about half of the pore diameter of SPG membrane. The encapsulation efficiency of tri-n-octylamine was approximately 100% for all the microcapsules prepared in this study. Therefore, it can be said that there was practically no loss of tri-n-octylamine during the preparation of microcapsules. All microcapsules prepared in this study reached forward extraction equilibrium within 5 minutes and the forward extraction ratio reached nearly 1. The back extraction of palladium (II) from microcapsules was carried out using 0.1M-hydrochloric acid solution containing a prescribed amount of thiourea. The back extraction occurred promptly and the back extraction ratio was high enough to elute all palladium (II) out from the microcapsules. Furthermore, by repeating forward and back extraction experiments, the durability of microcapsules was examined. From the result, it can be said that tri-n-octylamine was encapsulated rigidly and there was no leakage during extraction and back extraction experiment. Thus it seemed that the microcapsules were capable to be used in a repeated operation.

Słowa kluczowe

EN

extraction; microcapsule; tri-n-octylamine

PL

palladium

• Wydawca: Faculty of Chemical Technology and Engineering, University of Technology and Life Sciences, Bydgoszcz
• Czasopismo: Ars Separatoria Acta
• Rocznik: 2007
• Tom: No. 5
• Strony: 55--67
• Opis fizyczny: Bibliogr. 13 poz., rys.

Twórcy

autor

Minamihata K.

autor

Kiyoyama S.

autor

Shiomori K.

autor

Yoshida M.

autor

Hatate Y.

• Department of Chemical Science and Engineering, Miyakonojo National College, of Technology, Miyazaki, 885-8567, Japan,

Bibliografia

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