Advanced search
Publication Cover
Separation Science and Technology Volume 39, 2005 - Issue 4
Submit an article Journal homepage
95
Views
2
CrossRef citations to date
0
Altmetric
Original Articles

Application of Molecular Connectivity Indices to the Design of Supercritical Carbon Dioxide‐Soluble Metal Ion Extractants: SC‐CO2 Solubilities of Symmetrically Substituted Alkylenediphosphonic Acids

Daniel R. McAlister Department of Chemistry, Loyola University Chicago, Chicago, Illinois, USA; PG Research Foundation, Darien, IL, 60561, USA
,
Dr. Mark L. Dietz Chemistry Division, Argonne National Laboratory, 9700 S. Cass Avenue, Argonne, Illinois, 60439, USACorrespondence[email protected]
,
Dominique Stepinski Department of Chemistry, Loyola University Chicago, Chicago, Illinois, USA
,
Peter R. Zalupski Department of Chemistry, Loyola University Chicago, Chicago, Illinois, USA
,
Julie A. Dzielawa Chemistry Division, Argonne National Laboratory, 9700 S. Cass Avenue, Argonne, Illinois, 60439, USA
,
R. E. Barrans Jr. Chemistry Division, Argonne National Laboratory, 9700 S. Cass Avenue, Argonne, Illinois, 60439, USA; PG Research Foundation, Darien, IL, 60561, USA
,
J. N. Hess Department of Chemistry, Loyola University Chicago, Chicago, Illinois, USA
&
A. W. Herlinger Department of Chemistry, Loyola University Chicago, Chicago, Illinois, USA
 show all
Pages 761-780 | Received 01 Jun 2003, Published online: 08 Jul 2010

References

  • Welton , T. 1999 . Room‐temperature ionic liquids. Solvents for synthesis and catalysis . Chem. Rev. , 99 : 2071 – 2083 .
  • Holbrey , J. D. and Seddon , K. R. 1999 . Ionic liquids . Clean Prod. Process , 1 : 223 – 236 .
  • Earle , M. J. and Seddon , K. R. 2000 . Ionic liquids. Green solvents for the future . Pure Appl. Chem. , 72 : 1391 – 1398 .
  • Brennecke , J. F. and Maginn , E. J. 2001 . Ionic liquids: innovative fluids for chemical processing . AIChE J. , 47 : 2384 – 2389 .
  • Jessop , P. G. and Leitner , W. 1999 . “ Supercritical fluids as media for chemical reactions ” . In Chemical Synthesis Using Supercritical Fluids Edited by: Jessop , P. G. and Leitner , W. 9 – 13 . New York : Wiley‐VCH .
  • Laintz , K. E. , Wai , C. M. , Yonker , C. R. and Smith , R. D. 1992 . Extraction of metal ions from liquid and solid materials by supercritical carbon dioxide . Anal. Chem. , 64 : 2875 – 2878 .
  • Lin , Y. , Brauer , R. D. , Laintz , K. E. and Wai , C. M. 1993 . Supercritical fluid extraction of lanthanides and actinides from solid materials with a fluorinated β‐diketone . Anal. Chem. , 65 : 2549 – 2551 .
  • Wai , C. M. , Kulyako , Y. , Yak , H.‐K. , Chen , X. and Lee , S.‐J. 1999 . Selective extraction of strontium with supercritical fluid carbon dioxide . Chem. Commun. , : 2533 – 2534 .
  • Powell , C. J. and Beckman , E. J. 2001 . Design of ligands for the extraction of PtCl6 2− into liquid CO2 . Ind. Eng. Chem. Res. , 40 : 2897 – 2903 .
  • Dzielawa , J. A. 2001 . Chicago : Loyola University Chicago . ; Ph.D. Dissertation
  • McAlister , D. R. 2002 . Chicago : Loyola University Chicago . ; Ph.D. Dissertation
  • Stepinski , D. C. and Herlinger , A. W. 2002 . A facile and high yield synthesis of symmetric dialkyl‐substituted methylenebisphosphonic acids . Synth. Commun. , 32 : 2683 – 2690 .
  • Stepinski , D. C. , Nelson , D. W. , Zalupski , P. R. and Herlinger , A. W. 2001 . Facile high yielding synthesis of symmetric esters of methylenebisphosphonic acid . Tetrahedron , 57 : 8637 – 8645 .
  • Gatrone , R. C. , Horwitz , E. P. , Rickert , P. G. and Nash , K. L. 1990 . The synthesis and decomposition of novel organophosphorus complexants . Sep. Sci. Technol. , 25 : 1607 – 1627 .
  • Nash , K. L. and Rickert , P. G. 1993 . Thermally unstable complexants: stability of lanthanide/actinide complexes, thermal instability of the ligands, and applications in actinide separations . Sep. Sci. Technol. , 28 : 25 – 41 .
  • Nash , K. L. 1997 . f‐Element complexation by diphosphonate ligands . J. Alloys Compd. , 249 : 33 – 40 .
  • Fugate , G. A. , Nash , K. L. and Sullivan , J. C. 1997 . Kinetic study of the reactions of Np(V) and U(VI) with diphosphonic acids in acetate buffer solutions . Radiochim. Acta , 79 : 161 – 166 .
  • Nash , K. L. 1991 . Thermodynamics of formation of complexes between thorium(IV) and substituted methane diphosphonic acids in acidic solutions . Radiochim. Acta , 54 : 171 – 179 .
  • Chiarizia , R. , Horwitz , E. P. , Rickert , P. G. and Herlinger , A. W. 1996 . Metal extraction by alkyl‐substituted diphosphonic acids. Part 1. P,P′‐Di(2‐ethylhexyl) methanediphosphonic acid . Solvent Extr. Ion Exch. , 14 : 773 – 792 .
  • Chiarizia , R. , Herlinger , A. W. and Horwitz , E. P. 1997 . Metal extraction by alkyl‐substituted diphosphonic acids. Part 3. P,P′‐di(2‐ethylhexyl) ethanediphosphonic acid solvent extraction study . Solvent Extr. Ion Exch. , 15 : 417 – 431 .
  • Chiarizia , R. , Herlinger , A. W. , Chang , Y. D. , Ferraro , J. R. , Rickert , P. G. and Horwitz , E. P. 1998 . Metal extraction by alkyl‐substituted diphosphonic acids. Part 4. P,P′‐Di(2‐ethylhexyl) butanediphosphonic acid . Solvent Extr. Ion Exch. , 16 : 505 – 526 .
  • Horwitz , E. P. , Chiarizia , R. , Diamond , H. , Gatrone , R. C. , Alexandratos , S. D. , Trochimczuk , A. W. and Crick , D. W. 1993 . Uptake of metal ions by a new chelating ion‐exchange resin. Part 1: acid dependencies of actinide ions . Solvent Extr. Ion Exch. , 11 : 943 – 966 .
  • Alexandratos , S. D. , Trochimczuk , A. W. , Crick , D. W. , Horwitz , E. P. , Gatrone , R. C. and Chiarizia , R. 1996 . Synthesis and ion‐complexing properties of a novel polymer‐supported reagent with diphosphonate ligands . Macromolecules , 29 : 1021 – 1026 .
  • Chiarizia , R. , D'Arcy , K. A. , Horwitz , E. P. , Alexandratos , S. D. and Trochimczuk , A. W. 1996 . Uptake of metal ions by a new chelating ion exchange resin. Part 8: simultaneous uptake of cationic and anionic species . Solvent Extr. Ion Exch. , 14 : 519 – 542 .
  • Chiarizia , R. , Horwitz , E. P. , D'Arcy , K. A. , Alexandratos , S. D. and Trochimczuk , A. W. 1996 . Uptake of actinides and other ions by diphosil, a new silica‐based chelating ion exchange resin . Spec. Publ. ‐R. Soc. Chem. , 182 : 321 – 328 .
  • Chiarizia , R. , Horwitz , E. P. , D'Arcy , K. A. , Alexandratos , S. D. and Trochimczuk , A. W. 1996 . Uptake of metal ions by a new chelating ion exchange resin. Part 9: silica grafted diphosphonic acid . Solvent Extr. Ion Exch. , 14 : 1077 – 1100 .
  • Chiarizia , R. , Horwitz , E. P. , Alexandratos , S. D. and Gula , M. J. 1997 . Diphonix® resin: a review of its properties and applications . Sep. Sci. Technol. , 32 : 1 – 35 .
  • Chiarizia , R. , Horwitz , E. P. , Beauvais , R. A. and Alexandratos , S. D. 1998 . Diphonix‐Cs: a novel combined cesium and strontium selective ion exchange resin . Solvent Extr. Ion Exch. , 16 : 875 – 898 .
  • Horwitz , E. P. , Chiarizia , R. and Dietz , M. L. 1997 . Dipex: a new extraction chromatographic material for the separation and preconcentration of actinides from aqueous solution . React. Funct. Polym. , 33 : 25 – 36 .
  • Phelps , C. L. , Smart , N. G. and Wai , C. M. 1996 . Past, present and possible future applications of supercritical fluid technology . J. Chem. Ed. , 73 : 1163 – 1168 .
  • Herlinger , A. W. , McAlister , D. R. , Chiarizia , R. and Dietz , M. L. 2003 . Aggregation, metal ion extraction and solubility properties of silyl‐substituted alkylenediphosphonic acids . Sep. Sci and Tech. , 38 ( 12,13 ) : 2741 – 2762 .
  • Lagalante , A. F. , Hansen , B. N. and Bruno , T. J. 1995 . Solubilities of copper(II) and chromium(III) β‐diketonates in supercritical carbon dioxide . Inorg. Chem. , 34 : 5781 – 5785 .
  • Ashraf‐Khorassani , M. , Combs , M. T. and Taylor , L. T. 1997 . Solubility of metal chelates and their extraction from an aqueous environment via supercritical carbon dioxide . Talanta , 44 : 755 – 763 .
  • Griffith , J. A. , Barrans , R. E. , McAlister , D. R. , Dietz , M. L. and Herlinger , A. W. 2000 . Synthesis and characterization of di[3‐(trimethylsilyl)‐1‐propylene] alkylenediphosphonic acids . Synth. Commun. , 30 : 2121 – 2132 .
  • McAlister , D. R. , Dietz , M. L. , Chiarizia , R. and Herlinger , A. W. 2001 . Metal ion extraction by silyl‐substituted diphosphonic acids. Part 1. P,P′‐Di[3‐(trimethylsilyl)‐1‐propylene] methylene‐ and ethylene‐diphosphonic acids . Sep. Sci. Tech. , 36 : 3541 – 3562 .
  • McAlister , D. R. , Dietz , M. L. , Chiarizia , R. , Zalupski , P. R. and Herlinger , A. W. 2002 . Metal ion extraction by silyl‐substituted diphosphonic acids. Part 2. effect of alkylene bridge length on aggregation and metal ion extraction behavior . Sep. Sci. Tech. , 37 : 2289 – 2315 .
  • Luo , S. , Sheng , J. and Tang , B. 2001 . A comparison of HLW‐glass and PWR‐borate waste glass . J. Nucl. Mater. , 298 : 180 – 183 .
  • Johnson , K. P. , Peck , D. G. and Kim , S. 1989 . Modeling supercritical mixtures: how predictive is it? Ind . Eng. Chem. Res. , 28 : 1115 – 1125 .
  • Kosal , E. and Holder , G. D. 1987 . Solubility of anthracene and phenanthrene mixtures in supercritical carbon dioxide . J. Chem. Eng. Data , 32 : 148 – 150 .
  • Peng , D.‐Y. and Robinson , D. B. 1976 . A new two‐constant equation of state . Ind. Eng. Chem. Fundam. , 15 : 59 – 64 .
  • Sako , S. , Ohgaki , K. and Katayama , T. 1988 . Solubilities of naphthalene and indole in supercritical fluids . J. Supercrit. Fluids , 1 : 1 – 6 .
  • Johnston , K. P. , Ziger , D. H. and Eckert , C. A. 1982 . Solubilities of hydrocarbon solids in supercritical fluids. The augmented van der Waals treatment . Ind. Eng. Chem. Fundam. , 21 : 191 – 197 .
  • Battersby , P. , Dean , J. R. , Tomlinson , W. R. , Hitchen , S. M. and Myers , P. 1994 . Predicting solubility in supercritical fluid extraction using a neural network . Analyst , 119 : 925 – 928 .
  • Saunders , R. A. and Platts , J. A. 2001 . Linear free energy relationship analysis of the solubility of solids in supercritical CO2 . J. Phys. Org. Chem. , 14 : 612 – 617 .
  • Politzer , P. , Murray , J. S. , Lane , P. and Brinck , T. 1993 . Relationships between solute molecular properties and solubility in supercritical CO2 . J. Phys. Chem. , 97 : 729 – 732 .
  • Politzer , P. , Lane , P. , Murray , J. S. and Brinck , T. 1992 . Investigations of the relationships between solute molecule surface electrostatic potentials and solubilities in supercritical fluids . J. Phys. Chem. , 96 : 7938 – 7943 .
  • Engelhardt , H. L. and Jurs , P. C. 1997 . Prediction of supercritical carbon dioxide solubility of organic compounds from molecular structure . J. Chem. Inf. Comput. Sci. , 37 : 478 – 484 .
  • McHugh , M. and Paulaitis , M. E. 1980 . Solid solubilities of naphthalene and biphenyl in supercritical carbon dioxide . J. Chem. Eng. Data , 25 : 326 – 329 .
  • Iwai , Y. , Koga , Y. , Maruyama , H. and Arai , Y. 1993 . Solubilities of stearic acid, stearyl alcohol and arachidyl alcohol in supercritical carbon dioxide at 35°C . J. Chem. Eng. Data , 38 : 506 – 508 .
  • Yamamoto , M. , Iwai , Y. , Nakajama , T. and Arai , Y. 1999 . Fourier transform infrared study on hydrogen bonding species of carboxylic acids in supercritical carbon dioxide with ethanol . J. Phys. Chem. A , 103 : 3525 – 3529 .
  • Dandge , D. K. , Heller , J. P. and Wilson , K. V. 1985 . Structure solubility correlations: organic compounds and dense carbon dioxide binary systems . Ind. Eng. Chem. Prod. Res. Dev. , 24 : 162 – 166 .
  • Kupchik , E. J. 1993 . Structure‐gas chromatographic retention time models of tetra‐n‐alkylsilanes and tetra‐n‐alkylgermanes using topological indices . J. Chromatog. , 630 : 223 – 230 .
  • Kier , L. B. and Hall , L. H. 1986 . Molecular Connectivity in Structure‐Activity Analysis New York : John Wiley and Sons, Ltd. .
  • White , C. M. 1986 . Prediction of the boiling point, heat of vaporization and vapor pressure at various temperatures for polycyclic aromatic hydrocarbons . J. Chem. Eng. Data , 31 : 198 – 293 .
  • Hong , H. , Shuokui , H. , Xiaorong , W. and Liansheng , W. 1995 . Prediction of partition coefficients and toxicity for phenylthio, phenylsulfinyl and phenylsulfonyl acetates . Envir. Sci. Technol. , 29 : 3044 – 3048 .
  • Fink , R. , Hancu , D. , Valentine , R. and Beckman , E. J. 1999 . Toward the development of “CO2‐philic” hydrocarbons. 1. Use of side‐chain functionalization to lower the miscibility pressure of polydimethylsiloxanes in CO2 . J. Phys. Chem. B , 103 : 6441 – 6444 .
  • Fink , R. and Beckman , E. J. 2000 . Phase behavior of siloxane‐based amphiphiles in supercritical carbon dioxide . J. Supercrit. Fluid. , 18 : 101 – 110 .
  • Meguro , Y. , Iso , S. , Sasaki , T. and Yoshida , Z. 1998 . Solubility of organophosphorus metal extractants in supercritical carbon dioxide . Anal. Chem. , 70 : 774 – 779 .

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.