• Title/Summary/Keyword: acid-metal ion separation

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Adsorption and Separation of U (VI), Co (II), and Dy (III) Metal Ions on Crown Synthetic Resin

  • Kim, Joon-Tae
    • Journal of Integrative Natural Science
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    • v.10 no.1
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    • pp.43-50
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    • 2017
  • Synthetic resins were combined 1-aza-12-crown-4 macrocyclic ligand with styrene divinylbenzene copolymer having 1%, 2%, 8%, and 16% crosslink by a substitution reaction. These synthetic resins were confirmed by chlorine content, elementary analysis, SEM, surface area, and IR-spectrum. As the results of the effects of pH, crosslink of synthetic resin, and dielectric constant of a solvent on metal ion adsorption for resin adsorbent, the metal ions showed high adsorption at pH 3 or over. Adsorption selectivity for the resin in ethanol solvent was the order of uranium ($UO_2{^{2+}}$) > cobalt ($Co^{2+}$) > dysprosium ($Dy^{3+}$) ion, adsorbability of the metal ion was the crosslink in order of 1%, 2%, 8%, and 16% and it was increased with the lower dielectric constant. In addition, theses metal ions could be separated in the column with 1% crosslink resin by using nitric acid (pH 2.0) as an eluent.

Separation of Alkali and Alkaline Earth Metal Ions using Novel HDBPDA Ion Exchanger and Its Ion Exchange Characteristics (새로운 HDBPDA 이온교환체를 사용한 알칼리 및 알칼리토금속 이온들의 분리와 그의 이온교환특성)

  • Kim, Dong-Won;Kim, Chang-Suk;Choi, Ki-Young;Jeon, Young-Shin;Yoon, Yeo-Hag
    • Journal of the Korean Chemical Society
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    • v.37 no.9
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    • pp.820-825
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    • 1993
  • The ion exchange capacity of HDBPDA ion exchanger, {(4,5) : (13,14)-dibenzo-6,9,12-trioxa-3,15,21-triazabicyclo[15.3.l]heneicosa-(1,17,19)(18,20,21) triene ion exchanger: HDBPDA ion exchanger} was 3.8 meq/g. The distribution coefficients of alkali and alkaline earth metal ions in water and the various concentration of hydrochloric acid were determined. Concentration of hydrochloric acid have almost not influenced on the distribution coefficients of alkali and alkaline earth metal ions, but generally, the distribution coefficient was slightly increased with decrease of concentration of hydrochloric acid. The distribution coefficients of metal ions in water are larger than those of various hydrochloric acid concentrations. Also, alkali and alkaline earth metal ions are separated by column ion exchange chromatography using HDBPDA ion exchange with water as eluent. The distribution coefficents of alkali and alkaline earth metal ions were increased with increase of ionic radii of metal ions.

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Fabrication and Application of Pore-filled Cation-exchange Membranes Containing both Sulfonic and Phosphonic Acid Groups (설폰산기와 포스폰산기를 함께 포함한 세공충진 양이온 교환막의 제조 및 응용)

  • Min-Kyu Shin;Ji-Hyeon Lee;Moon-Sung Kang
    • Membrane Journal
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    • v.34 no.5
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    • pp.293-303
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    • 2024
  • In this study, we studied the fabrication of a cation-exchange membrane (CEM) with high permselectivity for monovalent ions that can be applied to an electrodialysis (ED) process for efficient separation of acid-metal ions from acid wastewater. The pore-filled cation-exchange membranes (PFCEMs) were fabricated by filling a porous substrate with sodium 4-vinylbenzenesulfonate (NaSS) monomers having sulfonic acid groups and vinylphosphonic acid (VPA) monomers having phosphonic acid groups together with a crosslinker into an asymmetric structure and in-situ photopolymerization. The fabricated PFCEMs had a slightly lower ion-exchange capacity than that of a commercial membrane, but they exhibited electrical resistance and mechanical properties suitable for practical applications. The permselectivity of the PFCEMs fabricated with various NaSS:VPA molar ratios and a commercial membrane (CSE, Astom, Japan) in H+/Fe2+ mixed solutions was measured. The best permselectivity was confirmed at the condition of NaSS:VPA = 25:75, which was more than 10 higher than that of the commercial membrane. In addition, the ED results of H+/Fe2+ mixed solution using the optimally fabricated membrane showed excellent acid-metal ion separation performance compared to the commercial membrane. The CEM including both sulfonic acid groups with excellent ion conductivity and phosphonic acid groups with strong binding affinity for metal ions is expected to be effective in separating various valuable metal ions in addition to Fe2+ from acid waste solutions.

Micro Pre-concentration and Separation of Metal Ions Using Microchip Column Packed with Magnetic Particles Immobilized by Aminobenzyl Ethylenediaminetetraacetic Acid

  • Kim, Y.H.;Kim, G.Y.;Lim, H.B.
    • Bulletin of the Korean Chemical Society
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    • v.31 no.4
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    • pp.905-909
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    • 2010
  • Magnetic beads (Dynabeads$^{(R)}$) embedded in ~1 micron size polystyrene beads bearing surface carboxylic acid groups were modified with aminobenzyl ethylenediaminetetraacetic acid (ABEDTA) to concentrate or separate metal ions using pH gradients on micro and nano scales. The immobilization of ABEDTA was achieved by amide formation. The presence of the metal chelating functional group in the fully deprotonated form was confirmed by FT-IR. The chelation efficiency of beads was tested by determining metal ions in supernatant using GFAAS when pH gradients from 3 to 7. Mixtures of Cu and Mg and of Cd and Mn (at 10 ng/mL of metal) were separated as the difference in formation constant with the functional group of ABEDTA. The separation was repeated twice with relative standard deviation of <18%. A polydimethylsiloxane (PDMS) microchip column packed with EDTA-coated magnetic beads was optimized to concentrate metal ion for practical applications by eluting a Cu solution of micro scale at pH 3.

Synthesis and Chromatographic Characteristics of Multidentate Ligand-Boned Silica Stationary Phases

  • Li, Rong;Wang, Yan;Chen, Guo-Liang;Shi, Mei;Wang, Xiao-Gang;Zheng, Jian-Bin
    • Bulletin of the Korean Chemical Society
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    • v.31 no.8
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    • pp.2201-2206
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    • 2010
  • To improve the separation property and stability of metal chelate Cu(II) column, three new kinds of multidentate aminocarboxy silica columns with cation-exchange properties were synthesized using glutamic acid (Glu), glutamic acidbromoacetic acid (Glu-BAA), glutamic acid-bromosuccinic acid (Glu-BSUA) as ligands and silica gel as matrix. The standard proteins were separated with prepared chromatographic columns. The stationary phases exhibited the metal chelate property after fixing copper ion (II) on the synthesized multidentate ligand silica columns. The binding capacity of immobilized metal ion was related with the dentate number of multidentate ligands. Chromatographic behavior of proteins and the leakage of immobilized metal ion on multidentate chelate Cu(II) columns were affected by the dentate number of multidentate ligands and competitive elution system directly. The results showed that quinquedentate Glu-BSUA-Cu(II) column exhibited better chromatographic property and stability as compared with tridentate Glu-Cu(II) column, tetradentate Glu-BAA-Cu(II) column and commonly used IDA-Cu(II) column.

Separation of Alkali and Alkaline Earth Metal Ions Using Novel DBPDA Ion Exchanger and Its Ion Exchange Properties (새로운 DBPDA 이온교환체를 사용한 알칼리 및 알칼리 토금속 이온들의 분리와 그의 이온교환 성질)

  • Kim, Dong Won;Kim, Chang Suk;Choi, Ki Young;Jeon, Young Shin
    • Analytical Science and Technology
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    • v.6 no.3
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    • pp.261-265
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    • 1993
  • The ion exchange capacity of DBPDA ion exchanger, {(4,5):(13,14)-dibenzo-6, 9, 12-trioxa-3, 15, 21-triazabicyclo [15.3.1] heneicosa-1(21), 17, 19-triene-2, 16-dione : DBPDA ion exchanger} was 4.2meq/g. The distribution coefficients of alkali and alkaline earth metal ions in the various concentrations of hydrochloric acid were determined using DBPDA ion exchanger. Also alkali and alkaline earth metal ions were separated using DBPDA ion exchanger. From these results the effect of pH of solution and ionic radii of the metal ions on the distribution coefficients of alkali and alkaline earth metal ions were discussed.

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Functionalization of polyethylene by graft copolymerization for separation processes

  • Kaur, Inderjeet;Gupta, Nitika;Kumari, Vandna
    • Advances in materials Research
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    • v.2 no.1
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    • pp.15-36
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    • 2013
  • Incorporation of polar functional moieties into polyethylene (PE) film has been achieved by graft copolymerization of polar monomers such as methacrylic acid (MAAc) and acrylamide (AAm) on to PE film, preirradiated with ${\gamma}$-rays from $^{60}Co$ source, using benzoyl peroxide (BPO) as initiator in aqueous medium. Percentage of grafting of MAAc and AAm was determined as a function of irradiation dose, monomer and initiator concentration, temperature, reaction time and amount of water. Maximum percentage of grafting of MAAc (1453%) and AAm (21.28%) was obtained at [MAAc] = $235.3{\times}10^{-2}$ mol/L, [AAm] = $23.4{\times}10^{-2}$ mol/L, [BPO] = $5.5{\times}10^{-2}$ mol/L and $16.5{\times}10^{-2}$ mol/L at $80^{\circ}C$, $90^{\circ}C$ in 180 min and 90 min respectively. The grafted PE films were characterized by FTIR, Thermogravimetric analysis (TGA) Scanning Electron Micrography (SEM) and X-ray diffraction methods. Some selective properties of grafted films such as swelling behavior, ion and metal uptake have been carried out. The biodegradation studies of the grafted PE films have also been investigated. The grafted films developed superior swelling behavior with maximum swelling (480%) in water as compared to pristine PE (13.55%), better thermal stability and ion and metal uptake studies showed promising results that can be effectively used for desalination of brackish water and separation of metals from the industrial effluents.

Chromatographic Behavior of Proteins on Stationary Phase with Aminocarboxy Ligand

  • Li, Rong;Ju, Ming-Yang;Chen, Bin;Sun, Qing-Yuan;Chen, Guo-Liang;Shi, Mei;Wang, Xiao-Gang;Zheng, Jian-Bin
    • Bulletin of the Korean Chemical Society
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    • v.32 no.2
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    • pp.590-594
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    • 2011
  • An aminocarboxy aspartic acid-bonded silica (Asp-Silica) stationary phase was synthesized using L-aspartic acid as ligand and silica gel as matrix. The standard protein mixtures were separated with prepared chromatographic column. The effects of solution pH, salt concentration and metal ion on the retention of proteins were examined, and also compared with traditional iminodiacetic acid-bonded silica (IDA-Silica) column. The results show that Asp-Silica column exhibited an excellent separation performance for proteins. The retention of proteins on Asp-Silica stationary phase was consistent with electrostatic characteristic of cation-exchange. The stationary phase displayed typical metal chelate property after fixing copper ion (II) on Asp-Silica. Under competitive eluting condition, protein mixtures were effectively isolated. Asp ligand showed better ion-exchange and metal chelating properties as compared with IDA ligand.

Separation of Fe(Ⅱ) from Co(Ⅱ), Ni(Ⅱ), Pb(Ⅱ) Using Amberlite IRA 400 Loaded with Alizarin Red S (Alizarin Red S가 결합된 Amberlite IRA 400 에 의한 Co(Ⅱ), Ni(Ⅱ), Pb(Ⅱ) 중 Fe(Ⅱ)의 분리)

  • Cha, Ki Won;Park, Chan Il;Kang, Ji Soo
    • Journal of the Korean Chemical Society
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    • v.42 no.2
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    • pp.172-176
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    • 1998
  • An anion exchange resin which has Alizarin Red S (ARS) as functional group was prepared by batch method. The resin is stable in acidic solutions below 0.5 M hydrochloric acid, nitric acid and sulfuric acid and adsorption capacity of Fe(Ⅱ) ion on the resin was larger than other metal ions. The preconcentration and the separation of Fe(Ⅱ) ion from the mixture solution were carried out with the pH 4.5 buffer solution and 0.1 M $HNO_{3}$ as eluents.

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Transport of Metal Ions Across Bulk Liquid Membrane by Lipophilic Acyclic Polyether Dicarboxylic Acids (Lipophilic Acyclic Polyether Dicarboxylic Acid 에 의한 액체막을 통한 금속이온의 이동)

  • Jo, Mun Hwan;Jo, Seong Ho;Lee, In Jong
    • Journal of the Korean Chemical Society
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    • v.38 no.2
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    • pp.129-135
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    • 1994
  • Acyclic polyether dicarboxylic acid have been studied as metal cation carriers in a bulk liquid membrane system. The proton-ionizable ligands feature allows the coupling of a cation transport to reverse proton transport. This feature offers promise for the effective separation and concentration of metal cations with the metal cation transport being driven by a pH gradient. Metal cation transport increased regularly with increasing hydroxide($H^-$) concentration of source phase and with proton($H^+$) concentration of receiving phase. Competitive transport by the acyclic polyether dicarboxylic acids is selective for calcium ion over other alkaline-earth cations.

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