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Reference type: Conference Proceeding
Authors: Djunaidi MC, Jumina, Siswanta D, Ulbricht M
Publication date: 2015
Article title: Selective transport of Fe(III) using ionic imprinted polymer (IIP) membrane particle.
Page numbers: ArticleNo060001
DOI: 10.1063/1.4938355 Alternative URL: http://scitation.aip.org/content/aip/proceeding/aipcp/10.1063/1.4938355

Proceedings title: AIP Conference Proceedings
Volume number: 1699
Conference information: International Conference of Chemical and Material Engineering (ICCME) 2015

Abstract: The membrane particles was prepared from polyvinyl alcohol (PVA) and polymer IIP with weight ratios of 1: 2 and 1: 1 using different adsorbent templates and casting thickness. The permeability of membrane towards Fe(III) and also mecanism of transport were studied. The selectivity of the membrane for Fe(III) was studied by performing adsorption experiments also with Cr(III) separately. In this study, the preparation of Ionic Imprinted Polymer (IIP) membrane particles for selective transport of Fe (III) had been done using polyeugenol as functional polymer. Polyeugenol was then imprinted with Fe (III) and then crosslinked with PEGDE under alkaline condition to produce polyeugenol-Fe-PEGDE polymer aggregates. The agrregates was then crushed and sieved using mesh size of 80 and the powder was then used to prepare the membrane particles by mixing it with PVA (Mr 125,000) solution in 1-Methyl-2-pyrrolidone (NMP) solvent. The membrane was obtained after casting at a speed of 25 m/s and soaking in NaOH solution overnight. The membrane sheet was then cut and Fe(III) was removed by acid to produce IIP membrane particles. Analysis of the membrane and its constituent was done by XRD, SEM and size selectivity test. Experimental results showed the transport of Fe(III) was faster with the decrease of membrane thickness, while the higher concentration of template ion correlates with higher Fe(III) being transported. However, the transport of Fe(III) was slower for higher concentration of PVA in the membrane. IImparticles works through retarded permeation mechanism, where Fe(III) was bind to the active side of IIP. The active side of IIP membrane was dominated by the -OH groups. The selectivity of all IIP membranes was confirmed as they were all unable to transport Cr (III), while NIP (Non-imprinted Polymer) membrane was able transport Cr (III).
Template and target information: iron ions, ferric ion, Fe(III)
Author keywords: IIP Membrane particle, Polyeugenol, Functional polymer, selective transport of Fe

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