@article{oai:miyazaki-u.repo.nii.ac.jp:00000877,
 author = {Shiomori, Koichiro and 塩盛, 弘一郎 and Shiomori, Kouichiro and Yoshizawa, Hidekazu and 吉澤, 秀和 and Fujikubo, Kenji and Kawano, Yoshinobu and Hatate, Yasuo and Kitamura, Yoshiro},
 issue = {16},
 journal = {Separation science and technology},
 month = {Nov},
 note = {Divinylbenzene homopolymer microcapsules having porous membranes encapsulating tri-n-octylamine as a core material were prepared by in-situ polymerization accompanied by the evaporation of toluene. The extraction equilibria of hydrochloric acid and precious metals in an acidic solution using the prepared microcapsules were measured at 303 K. The addition of toluene into the dispersed phase resulted in the microcapsule membrane having a porous structure due to the toluene evaporation during in-situ polymerization, which was verified based on the results obtained both from SEM observation of the microcapsulesユ morphology and in the extraction equilibrium of hydrochloric acid. Using microcapsules prepared with toluene, hydrochloric acid was sufficiently extracted form an aqueous solution. In contrast, microcapsules prepared without toluene scarcely extracted hydrochloric acid. The microcapsules successfully extracted palladium （II） from the acidic media, and this was explained by the reaction between one palladium ion and two molecules of tri-n-octylamine in a similar manner of that taking place in the solvent extraction. The back-extraction of palladium （II） from the microcapsules was expressed by the back reaction of the extraction. Gold （III） and platinum （IV） were also successfully extracted using the prepared microcapsules.},
 pages = {4057--4077},
 title = {Extraction Equilibrium of Precious Metals from Aqueous Acidic Solutions with Divinylbenzene Homopolymeric Microcapsules Encapsulated Ternary Amine as Core Material},
 volume = {38},
 year = {2003},
 yomi = {シオモリ, コウイチロウ and ヨシザワ	, ヒデカズ}
}