Selective Transport of Ag(I) through a Polymer Inclusion Membrane Containing a Calix[4]pyrrole Derivative from Nitrate Aqueous Solutions
暂无分享,去创建一个
[1] I. Zawierucha,et al. Selective removal of silver(i) using polymer inclusion membranes containing calixpyrroles , 2019, RSC advances.
[2] J. Kozłowska,et al. Separation of silver(I) and copper(II) by polymer inclusion membranes with aza[18]crown-6 derivatives as ion carriers , 2017 .
[3] M. Shamsipur,et al. Highly facile supported liquid membrane transport and removal of silver ion using dibenzyldiaza-18-crown-6 dissolved in a supramolecular solvent as selective ion carrier , 2016 .
[4] H. Eshghi,et al. Selective Transport of Silver(I) Cation Across a Bulk Liquid Membrane Containing Bis-β-enamino Ester as Ion Carrier , 2016 .
[5] P. Mohapatra,et al. Evaluation of polymer inclusion membranes containing calix[4]-bis-2,3-naptho-crown-6 for Cs recovery from acidic feeds: Transport behavior, morphology and modeling studies , 2012 .
[6] A. Trochimczuk,et al. Selective transport of Ag+ and Cu2+ across plasticized membranes with calix[4]pyrrole[2]thiophene , 2012 .
[7] F. J. Alguacil,et al. Supported liquid membranes technologies in metals removal from liquid effluents , 2011 .
[8] A. Altın,et al. Transport of silver ions through a flat-sheet supported liquid membrane , 2010 .
[9] V. Kislik. Carrier-Facilitated Coupled Transport Through Liquid Membranes: General Theoretical Considerations and Influencing Parameters , 2010 .
[10] M. Ulewicz,et al. Transport of lead across polymer inclusion membrane with p- tert -butylcalix[4]arene derivative , 2010 .
[11] Hiren C. Mandalia,et al. Azocalix[4]pyrrole Amberlite XAD-2: new polymeric chelating resins for the extraction, preconcentration and sequential separation of Cu(II), Zn(II) and Cd(II) in natural water samples. , 2009, Talanta.
[12] M. A. El-Ghaffar,et al. Adsorption of silver(I) on synthetic chelating polymer derived from 3-amino-1,2,4-triazole-5-thiol and glutaraldehyde , 2009 .
[13] J. Verchere,et al. A supported liquid membrane (SLM) with resorcinarene for facilitated transport of methyl glycopyranosides: Parameters and mechanism relating to the transport , 2009 .
[14] M. Soylak,et al. Column solid-phase extraction of nickel and silver in environmental samples prior to their flame atomic absorption spectrometric determinations. , 2009, Journal of hazardous materials.
[15] M. Shamsipur,et al. Highly selective transport of silver ion through a supported liquid membrane using calix[4]pyrroles as suitable ion carriers , 2008 .
[16] G. Rounaghi,et al. Transport of silver ion through bulk liquid membrane using macrocyclic and acyclic ligands as carriers in organic solvents , 2008 .
[17] M. Mazhar,et al. Coupled transport of Ag(I) ions through triethanolamine–cyclohexanone-based supported liquid membranes , 2008 .
[18] C. Comninellis,et al. Solvent extraction of silver from nitric acid solutions by calix[4]arene amide derivatives , 2008 .
[19] P. Seta,et al. Thiacalix[4]arene derivatives as extractants for metal ions in aqueous solutions: Application to the selective facilitated transport of Ag(I) , 2008 .
[20] D. Siswanta,et al. TRANSPORT OF Cr(III), Cd(II), Pb(II), AND Ag(I) IONS THROUGH BULK LIQUID MEMBRANE CONTAINING p-tert -BUTYLCALIX[4]ARENE –TETRAETHYLESTER AS ION CARRIER , 2008 .
[21] J. Aguilar,et al. Structural effects on metal ion migration across polymer inclusion membranes: Dependence of transport profiles on nature of active plasticizer , 2008 .
[22] D. Siswanta,et al. TRANSPORT OF Cr 3+ , Cd 2+ , Pb 2+ , AND Ag + IONS THROUGH BULK LIQUID MEMBRANE CONTAINING p-tert-BUTYLCALIX[4]ARENE –TETRACARBOXYLIC ACID AS ION CARRIER , 2010 .
[23] M. Ulewicz,et al. Facilitated transport of Zn(II), Cd(II) and Pb(II) ions through polymer inclusion membranes with calix[4]-crown-6 derivatives , 2007 .
[24] S. Bahar,et al. Separation study of silver(I) ion through a bulk liquid membrane containing meloxicam , 2007 .
[25] M. Goto,et al. Separation of silver from photographic wastes by emulsion liquid membrane system , 2006 .
[26] M. Shamsipur,et al. A supported liquid membrane system for simultaneous separation of silver(I) and mercury(II) from dilute feed solutions , 2006 .
[27] A. Trochimczuk,et al. Chelating resin containing hybrid calixpyrroles: New sorbent for noble metal cations , 2006 .
[28] A. Trochimczuk,et al. Novel chelating resins containing calix[4]pyrroles: Synthesis and sorptive properties , 2006 .
[29] W. Walkowiak,et al. Transport of Cr(VI), Zn(II), and Cd(II) Ions Across Polymer Inclusion Membranes with Tridecyl(pyridine) Oxide and Tri-n-Octylamine , 2004 .
[30] M. Cox,et al. Solvent Extraction in Hydrometallurgy , 2004 .
[31] M. Shamsipur,et al. Selective transport of silver ion through a supported liquid membrane using some mixed aza-thioether crowns containing a 1,10-phenanthroline sub-unit as specific ion carriers , 2003 .
[32] H. Kerdjoudj,et al. Specific membrane transport of silver and copper as Ag(CN)32− and Cu(CN)43− ions through a supported liquid membrane using K+-crown ether as a carrier , 2003 .
[33] M. Akhond,et al. Highly Selective Transport of Ag + Ion through a Liquid Membrane Containing 2-Mercaptobenzothiazole as a Carrier , 2003 .
[34] E. Drioli,et al. Removal of silver and copper ions from acidic thiourea solutions with a supported liquid membrane containing D2EHPA as carrier , 2002 .
[35] J. C. Aguilar,et al. Cd(II) and Pb(II) extraction and transport modeling in SLM and PIM systems using Kelex 100 as carrier , 2001 .
[36] T. Rhlalou. Facilitated transport of sugars by a resorcinarene through a supported liquid membrane , 2000 .
[37] K. Schulze. Impedance spectroscopic investigation of the temperature influence on the transfer of tetraphenylborate ions through lipid membranes — Calculation of energy barriers for the ion transfer across lipid membranes , 1998 .
[38] Taka-aki Saito. Transport of silver(I) ion through a supported liquid membrane using bathocuproine as a carrier , 1998 .
[39] Bradley D. Smith,et al. Facilitated Transport of Small Carbohydrates through Plasticized Cellulose Triacetate Membranes. Evidence for Fixed-Site Jumping Transport Mechanism , 1997 .
[40] J. Bell. Pollution: Causes, effects and control: 3rd Edition. Edited by Roy M. Harrison. The Royal Society of Chemistry, Cambridge, 1996, ISBN 0-85404-534-1, 480 pp. Price: ß35.00) , 1997 .
[41] D. Langevin,et al. Sorption of glucose by an anion-exchange membrane in the borate form. Stability of the complexes and the facilitated transport of glucose , 1996 .
[42] Philip A. Gale,et al. Calix[4]pyrroles: Old Yet New Anion-Binding Agents , 1996 .
[43] J. Way,et al. Chemical Separations with Liquid Membranes: An Overview , 1996 .
[44] Bradley D. Smith. Liquid membrane transport using boronic acid carriers , 1996 .
[45] Z. Lazarova. STUDY ON THE KINETICS OF COPPER/LIX54 SYSTEM USING A ROTATING DIFFUSION CELL , 1995 .
[46] D. Reinhoudt,et al. Kinetic versus diffusion control in carrier-mediated cotransport of alkali cations through supported liquid membranes , 1995 .
[47] Keith Scott,et al. Handbook of Industrial Membranes , 1995 .
[48] K. C. Sole,et al. SOLVENT EXTRACTION OF SILVER BY CYANEX 272, CYANEX 302 AND CYANEX 30 , 1994 .
[49] Bradley D. Smith,et al. Metal cation:Glucopyranoside co-transport through a liquid organic membrane , 1993 .
[50] C. Sirlin,et al. Silver nitrate refining using supported liquid membranes , 1990 .
[51] D. Pavković,et al. SOLVENT EXTRACTION OF SILVER(I) AND MERCURY(lI) BY O,O-DI-n-BUTYL PHENYLAMINO-PHENYLMETHANETHIO PHOSPHONATE FROM CHLORIDE SOLUTIONS , 1990 .
[52] 목영선,et al. Application of Emulsion Liquid Membrane Technology to the Extraction of Silver , 1986 .
[53] P. Danesi. Separation of Metal Species by Supported Liquid Membranes , 1984 .
[54] Roy M. Harrison,et al. Pollution: Causes, Effects and Control. , 1984 .