Reviews
Overviews 1. Andrew H. Bond, Mark L. Dietz, and Robin D. Rogers: Progress in Metal Ion Separation and Preconcentration: An Overview 2. Gregory R. Choppin: Future of Separation Science in U.S. Department of Energy Processing and Remediation 3. E. Philip Horwitz and Wallace W. Schulz: Solvent Extraction in the Treatment of Acidic High-Level Liquid Waste: Where Do We Stand? Aqueous Systems 4. Kenneth L. Nash: Aqueous Complexes in f-Element Separation Science 5. Jonathan G. Huddleston, Scott T. Griffin, Jinhua Zhang, Heather D. Willauer, and Robin D. Rogers: Metal Ion Separations in Aqueous Biphasic Systems and Using Aqueous Biphasic Extraction Chromatography Extractant Design and Synthesis 6. Benjamin P. Hay: A Molecular Mechanics Method for Predicting the Influence of Ligand Structure on Metal Ion Binding Affinity 7. Richard A. Sachleben and Bruce A. Moyer: Ligand Design for Small Cations: The Li+/14-Crown-4 System 8. Jerald S. Bradshaw, Andrei V. Bordunov, Xian Xin Zhang, Victor N. Pastushok, and Reed M. Izatt: Synthesis of Novel Azamacrocyclic Metal Ion Receptors Using a Modified Mannich Aminomethylation Reaction Separations Using Liquid-Liquid Systems 9. Richard A. Bartsch: Metal Ion Separations with Proton-Ionizable Lariat Ethers 10. Steven H. Strauss: Redox-Recyclable Extraction and Recovery of Heavy Metal Ions and Radionuclides from Aqueous Media Separations Using Solid-Liquid Systems 11. Abraham Clearfield, Damodara M. Poojary, Elizabeth A. Behrens, Roy A. Cahill, Anatoly I. Bortun, and Lyudmila N. Bortun: Structural Basis of Selectivity in Tunnel Type Inorganic Ion Exchangers 12. Richard A. Bartsch and Takashi Hayashita: Metal Ion Separations with Lariat Ether Ion-Exchange Resins 13. Spiro D. Alexandratos and Latiff A. Hussain: Design of Novel Polymer-Supported Reagents for Metal Ion Separations 14. E. Philip Horwitz, Renato Chiarizia, Spiro D. Alexandratos, and Michael Gula: Recent Advances in the Chemistry and Applications of the Diphonix Resins 15. Norman C. Schroeder, Susan D. Radzinski, Jason R. Ball, Kenneth R. Ashley, and Glenn D. Whitener: Reillex-HPQ Anion Exchange Column Chromatography: Removal of Pertechnetate Ion from DSSF-5 Simulant 16. Mark L. Dietz, E. Philip Horwitz, and Andrew H. Bond: Extraction Chromatography: Progress and Opportunities 17. Garold L. Goken, Ronald L. Bruening, Krzystof E. Krakowiak, and Reed M. Izatt: Metal-Ion Separations Using SuperLig and AnaLig Materials Encased in Empore Cartridges and Disks 18. Gary D. Rayson, Lawrence R. Drake, Hongying Xia, Shan Lin, and Paul J. Jackson: Biologically Generated Materials for Metal-Ion Binding: Answers to Some Fundamental Chemical Questions Separations Using Membranes 19. Susan B. Shadizadeh, Richard W. Taylor, John F. Scamehorn, Annette L. Schovanec, and Sherril D. Christian: Use of Ligand-Modified Micellar-Enhanced Ultrafiltration to Selectively Remove Copper from Water 20. Barbara F. Smith, Thomas W. Robison, and Gordon D. Jarvinen: Water-Soluble Metal-Binding Polymers with Ultrafiltration Separations Using Chromatographic and Supercritical Fluid Extraction Systems 21. Boris Ya. Spivakov, Tatiana A. Maryutina, Petr S. Fedotov, and Svetlana N. Ignatova: Different Two-Phase Liquid Systems for Inorganic Separations by Countercurrent Chromatography 22. Subramaniam Muralidharan and Henry Freiser: Fundamental Aspects of Metal-Ion Separations by Centrifugal Partition Chromatography 23. Chien M. Wai, Yuehe Lin, Min Ji, Karen L. Toews, and Neil G. Smart: Extraction and Separation of Uranium and Lanthanides with Supercritical Fluids, "New technologies and concepts in the field of metal-ion separations are explored in this volume in the Symposium Series. The book is directed toward both new and experienced practitioners of separation science as well as scientists interested in the application of metal-ion separations toenvironmental problems. The book is organized into six sections: Aqueous Systems, Extractant Design and Synthesis, Separations Using Liquid-Liquid Systems, Separations Using Solid-Liquid Systems, Separations Using Membranes, and Separations Using Chromatographic and Supercritical Fluid ExtractionSystems. Three overview chapters are also included."--Journal of the American Chemical Society, "A volume containing 23 contributions, divided into seven sections: overviews; aqueous systems; extractant design and synthesis; separations using liquid-liquid systems; separations using solid- liquid systems; separations using membranes; and separations using chromatographic and supercritical fluid extraction systems. Topics include both novel separations media and methodology and recent developments in established separation techniques, with an emphasis on providing a picture of the state-of-the-art in the field. Suitable for the novice and experienced practitioner, as well as basic researchers who work in metal ion complexation and separation. Also of likely interest to those interested in the application of metal ion separations methods to problems in waste treatment, environmental remediation, and chemical analysis."--SciTech Book News "New technologies and concepts in the field of metal-ion separations are explored in this volume in the Symposium Series. The book is directed toward both new and experienced practitioners of separation science as well as scientists interested in the application of metal-ion separations to environmental problems. The book is organized into six sections: Aqueous Systems, Extractant Design and Synthesis, Separations Using Liquid-Liquid Systems, Separations Using Solid-Liquid Systems, Separations Using Membranes, and Separations Using Chromatographic and Supercritical Fluid Extraction Systems. Three overview chapters are also included."--Journal of the American Chemical Society, "New technologies and concepts in the field of metal-ion separations areexplored in this volume in the Symposium Series. The book is directed towardboth new and experienced practitioners of separation science as well asscientists interested in the application of metal-ion separations toenvironmental problems. The book is organized into six sections: AqueousSystems, Extractant Design and Synthesis, Separations Using Liquid-LiquidSystems, Separations Using Solid-Liquid Systems, Separations Using Membranes,and Separations Using Chromatographic and Supercritical Fluid ExtractionSystems. Three overview chapters are also included."--Journal of the AmericanChemical Society, "A volume containing 23 contributions, divided into seven sections:overviews; aqueous systems; extractant design and synthesis; separations usingliquid-liquid systems; separations using solid- liquid systems; separationsusing membranes; and separations using chromatographic and supercritical fluidextraction systems. Topics include both novel separations media and methodologyand recent developments in established separation techniques, with an emphasison providing a picture of the state-of-the-art in the field. Suitable for thenovice and experienced practitioner, as well as basic researchers who work inmetal ion complexation and separation. Also of likely interest to thoseinterested in the application of metal ion separations methods to problems inwaste treatment, environmental remediation, and chemical analysis."--SciTechBook News, "A volume containing 23 contributions, divided into seven sections: overviews; aqueous systems; extractant design and synthesis; separations using liquid-liquid systems; separations using solid- liquid systems; separations using membranes; and separations using chromatographic and supercritical fluid extraction systems. Topics include both novel separations media and methodology and recent developments in established separation techniques, with an emphasis on providing a picture of the state-of-the-art in the field. Suitable for the novice and experienced practitioner, as well as basic researchers who work in metal ion complexation and separation. Also of likely interest to those interested in the application of metal ion separations methods to problems in waste treatment, environmental remediation, and chemical analysis."-- SciTech Book News "New technologies and concepts in the field of metal-ion separations are explored in this volume in the Symposium Series. The book is directed toward both new and experienced practitioners of separation science as well as scientists interested in the application of metal-ion separations to environmental problems. The book is organized into six sections: Aqueous Systems, Extractant Design and Synthesis, Separations Using Liquid-Liquid Systems, Separations Using Solid-Liquid Systems, Separations Using Membranes, and Separations Using Chromatographic and Supercritical Fluid Extraction Systems. Three overview chapters are also included."-- Journal of the American Chemical Society, "A volume containing 23 contributions, divided into seven sections: overviews; aqueous systems; extractant design and synthesis; separations using liquid-liquid systems; separations using solid- liquid systems; separations using membranes; and separations using chromatographic andsupercritical fluid extraction systems. Topics include both novel separations media and methodology and recent developments in established separation techniques, with an emphasis on providing a picture of the state-of-the-art in the field. Suitable for the novice and experienced practitioner, aswell as basic researchers who work in metal ion complexation and separation. Also of likely interest to those interested in the application of metal ion separations methods to problems in waste treatment, environmental remediation, and chemical analysis."--SciTech Book News
Table of Content
Overviews 1. Progress in Metal Ion Separation and Preconcentration: An Overview, Andrew H. Bond, Mark L. Dietz, and Robin D. Rogers 2. Future of Separation Science in U.S. Department of Energy Processing and Remediation, Gregory R. Choppin 3. Solvent Extraction in the Treatment of Acidic High-Level Liquid Waste: Where Do We Stand?, E. Philip Horwitz and Wallace W. Schulz Aqueous Systems 4. Aqueous Complexes in f-Element Separation Science, Kenneth L. Nash 5. Metal Ion Separations in Aqueous Biphasic Systems and Using Aqueous Biphasic Extraction Chromatography, Jonathan G. Huddleston, Scott T. Griffin, Jinhua Zhang, Heather D. Willauer, and Robin D. Rogers Extractant Design and Synthesis 6. A Molecular Mechanics Method for Predicting the Influence of Ligand Structure on Metal Ion Binding Affinity, Benjamin P. Hay 7. Ligand Design for Small Cations: The Li]+/14-Crown-4 System, Richard A. Sachleben and Bruce A. Moyer 8. Synthesis of Novel Azamacrocyclic Metal Ion Receptors Using a Modified Mannich Aminomethylation Reaction, Jerald S. Bradshaw, Andrei V. Bordunov, Xian Xin Zhang, Victor N. Pastushok, and Reed M. Izatt Separations Using Liquid-Liquid Systems 9. Metal Ion Separations with Proton-Ionizable Lariat Ethers, Richard A. Bartsch 10. Redox-Recyclable Extraction and Recovery of Heavy Metal Ions and Radionuclides from Aqueous Media, Steven H. Strauss Separations Using Solid-Liquid Systems 11. Structural Basis of Selectivity in Tunnel Type Inorganic Ion Exchangers, Abraham Clearfield, Damodara M. Poojary, Elizabeth A. Behrens, Roy A. Cahill, Anatoly I. Bortun, and Lyudmila N. Bortun 12. Metal Ion Separations with Lariat Ether Ion-Exchange Resins, Richard A. Bartsch and Takashi Hayashita 13. Design of Novel Polymer-Supported Reagents for Metal Ion Separations, Spiro D. Alexandratos and Latiff A. Hussain 14. Recent Advances in the Chemistry and Applications of the Diphonix Resins, E. Philip Horwitz, Renato Chiarizia, Spiro D. Alexandratos, and Michael Gula 15. Reillex-HPQ Anion Exchange Column Chromatography: Removal of Pertechnetate Ion from DSSF-5 Simulant, Norman C. Schroeder, Susan D. Radzinski, Jason R. Ball, Kenneth R. Ashley, and Glenn D. Whitener 16. Extraction Chromatography: Progress and Opportunities, Mark L. Dietz, E. Philip Horwitz, and Andrew H. Bond 17. Metal-Ion Separations Using SuperLig and AnaLig Materials Encased in Empore Cartridges and Disks, Garold L. Goken, Ronald L. Bruening, Krzystof E. Krakowiak, and Reed M. Izatt 18. Biologically Generated Materials for Metal-Ion Binding: Answers to Some Fundamental Chemical Questions, Gary D. Rayson, Lawrence R. Drake, Hongying Xia, Shan Lin, and Paul J. Jackson Separations Using Membranes 19. Use of Ligand-Modified Micellar-Enhanced Ultrafiltration to Selectively Remove Copper from Water, Susan B. Shadizadeh, Richard W. Taylor, John F. Scamehorn, Annette L. Schovanec, and Sherril D. Christian 20. Water-Soluble Metal-Binding Polymers with Ultrafiltration, Barbara F. Smith, Thomas W. Robison, and Gordon D. Jarvinen Separations Using Chromatographic and Supercritical Fluid Extraction Systems 21. Different Two-Phase Liquid Systems for Inorganic Separations by Countercurrent Chromatography, Boris Ya. Spivakov, Tatiana A. Maryutina, Petr S. Fedotov, and Svetlana N. Ignatova 22. Fundamental Aspects of Metal-Ion Separations by Centrifugal Partition Chromatography, Subramaniam Muralidharan and Henry Freiser 23. Extraction and Separation of Uranium and Lanthanides with Supercritical Fluids, Chien M. Wai, Yuehe Lin, Min Ji, Karen L. Toews, and Neil G. Smart
