Polymerised high internal phase emulsions for fluid separation applications

Current Opinion in Chemical Engineering

Volumn 4, Issue , 2014, Pages 114-120

  Tebboth, Michael ^a   Menner, Angelika ^b   Kogelbauer, Andreas ^a   Bismarck, Alexander ^a,b  

^a IMPERIAL COLLEGE LONDON   (United Kingdom)

^b UNIVERSITY OF VIENNA   (Austria)

Author keywords

[No Author keywords available]

Indexed keywords

EMULSIFICATION; ION EXCHANGE; ION EXCHANGE MEMBRANES; OSTWALD RIPENING; POLYMERS; PORE STRUCTURE; SEPARATION;

BONE GRAFT; CONTINUOUS PHASE; FLUID SEPARATION; HIGH INTERNAL PHASE EMULSIONS; INTERCONNECTED PORES; ION-EXCHANGE COLUMNS; MACROPOROUS POLYMERS; PROTEIN PURIFICATION;

CHROMATOGRAPHY;

EID: 84897354267     PISSN: None     EISSN: 22113398     Source Type: Journal    
DOI: 10.1016/j.coche.2014.03.001     Document Type: Review

References (78)

1. H. Zhang, and A.I. Cooper Synthesis and applications of emulsion-templated porous materials Soft Matter 1 2005 107 113
2. S. Zhou, A. Bismarck, and J.H.G. Steinke Thermoresponsive macroporous scaffolds prepared by emulsion templating Macromol Rapid Commun 33 2012 1833 1839
3. A. Menner, R. Powell, and A. Bismarck Open porous polymer foams via inverse emulsion polymerization: should the definition of high internal phase (ratio) emulsions be extended? Macromolecules 39 2006 2034 2035
4. K.J. Lissant The geometry of high-internal-phase-ratio emulsions J Colloid Interface Sci 22 1966 462 468
5. A. Menner, and A. Bismarck New evidence for the mechanism of the pore formation in polymerising high internal phase emulsions or why polyHIPEs have an interconnected pore network structure Macromol Symp 242 2006 19 24
6. N.R. Cameron, D.C. Sherrington, L. Albiston, and D.P. Gregory Study of the formation of the open-cellular morphology of poly(styrene/divinylbenzene) polyHIPE materials by cryo-SEM Colloid Polym Sci 274 1996 592 595
7. S.S. Manley, N. Graeber, Z. Grof, A. Menner, G.F. Hewitt, F. Stepanek, and A. Bismarck New insights into the relationship between internal phase level of emulsion templates and gas-liquid permeability of interconnected macroporous polymers Soft Matter 5 2009 4780 4787
8. A. Barbetta, and N.R. Cameron Morphology and surface area of emulsion-derived (polyHIPE) solid foams prepared with oil-phase soluble porogenic solvents: Span 80 as surfactant Macromolecules 37 2004 3188 3201
9. V.O. Ikem, A. Menner, and A. Bismarck High internal phase emulsions stabilized solely by functionalized silica particles Angew Chem Int Ed 47 2008 8277 8279
10. A. Menner, R. Verdejo, M. Shaffer, and A. Bismarck Particle-stabilized surfactant-free medium internal phase emulsions as templates for porous nanocomposite materials: poly-Pickering-foams Langmuir 23 2007 2398 2403
11. P.J. Colver, and S.A.F. Bon Cellular Polymer Monoliths Made via Pickering High Internal Phase Emulsions J Chem Mater 9 2007 1537 1539
12. V.O. Ikem, A. Menner, T.S. Horozov, and A. Bismarck Highly permeable macroporous polymers synthesized from Pickering medium and high internal phase emulsion templates Adv Mater 22 2010 3588 3592
13. J.M. Williams, A.J. Gray, and M.H. Wilkerson Emulsion stability and rigid foams from styrene or divinylbenzene water-in-oil emulsions Langmuir 6 1990 437 444
14. R. Wu, A. Menner, and A. Bismarck Macroporous polymers made from medium internal phase emulsion templates: effect of emulsion formulation on the pore structure of polyMIPEs Polymer 54 2013 5511 5517
15. W. Busby, N.R. Cameron, and C.A.B. Jahoda Emulsion-derived foams (polyHIPEs) containing poly(ε-caprolactone) as matrixes for tissue engineering Biomacromolecules 2 2001 154 164
16. A. Barbetta, and N.R. Cameron Morphology and surface area of emulsion-derived (polyHIPE) solid foams prepared with oil-phase soluble porogenic solvents: three-component surfactant system Macromolecules 37 2004 3202 3213
17. S. Zhou, A. Bismarck, and J.H.G. Steinke Interconnected macroporous glycidyl methacrylate-grafted dextran hydrogels synthesised from hydroxyapatite nanoparticle stabilised high internal phase emulsion templates J Mater Chem 22 2012 18824 18829
18. ® beads React Funct Polym 53 2002 183 192
19. D. Štefanec, and P. Krajnc 4-Vinylbenzyl chloride based porous spherical polymer supports derived from water-in-oil-in-water emulsions React Funct Polym 65 2005 37 45
20. H. Zhang, and A.I. Cooper Synthesis of monodisperse emulsion-templated polymer beads by oil-in-water-in-oil (O/W/O) sedimentation polymerization Chem Mater 14 2002 4017 4020
21. S.D. Kimmins, P. Wyman, and N.R. Cameron Amine-functionalization of glycidyl methacrylate-containing emulsion-templated porous polymers and immobilization of proteinase K for biocatalysis Polymer 55 2014 416 425
22. 2 in the waste air streams Chem Eng Process Process Intensification 50 1 2011 16 21
23. N. Brun, S. Ungureanu, H. Deleuze, and R. Backov Hybrid foams, colloids and beyond: from design to applications Chem Soc Rev 40 2011 771 788
24. N.R. Cameron High internal phase emulsion templating as a route to well-defined porous polymers Polymer 46 2005 1439 1449
25. N.R. Cameron, and D.C. Sherrington High internal phase emulsions (HIPEs) - structure, properties and use in polymer preparation Biopolymers Liquid Crystalline Polymers Phase Emulsion 1996 Springer Berlin, Heidelberg 163 214
26. S.D. Kimmins, and N.R. Cameron Functional porous polymers by emulsion templating: recent advances Adv Funct Mater 21 2011 211 225
27. I. Pulko, and P. Krajnc High internal phase emulsion templating - a path to hierarchically porous functional polymers Macromol Rapid Commun 33 2012 1731 1746
28. E. Ruckenstein Concentrated emulsion polymerization Polymer Synthesis/Polymer Catalysis 1997 Springer Berlin, Heidelberg 1 58
29. M.S. Silverstein Emulsion-templated porous polymers: a retrospective perspective Polymer 55 2014 304 320
30. M.S. Silverstein PolyHIPEs: recent advances in emulsion-templated porous polymers Progr Polym Sci 39 2014 199 234
31. A.S. Hayward, N. Sano, S.A. Przyborski, and N.R. Cameron Acrylic-acid-functionalized polyHIPE scaffolds for use in 3D cell culture Macromol Rapid Commun 34 2013 1844 1849
32. S. Zhou, A. Bismarck, and J.H.G. Steinke Ion-responsive alginate based macroporous injectable hydrogel scaffolds prepared by emulsion templating J Mater Chem B 1 2013 4736 4745
33. Z. Li, M. Xiao, J. Wang, and T. Ngai Pure protein scaffolds from Pickering high internal phase emulsion template Macromol Rapid Commun 34 2013 169 174
34. R.S. Moglia, J.L. Holm, N.A. Sears, C.J. Wilson, D.M. Harrison, and E. Cosgriff-Hernandez Injectable polyHIPEs as high-porosity bone grafts Biomacromolecules 12 2011 3621 3628
35. N. Shirshova, A. Menner, G.P. Funkhouser, and A. Bismarck Polymerised high internal phase emulsion cement hybrids: macroporous polymer scaffolds for setting cements Cement Concrete Res 41 2011 443 450
36. J.F. Brown, P. Krajnc, and N.R. Cameron PolyHIPE supports in batch and flow-through Suzuki cross-coupling reactions Ind Eng Chem Res 44 2005 8565 8572
37. S. Wang, Z. Zhang, H. Liu, W. Zhang, Z. Qian, and B. Wang One-step synthesis of manganese dioxide/polystyrene nanocomposite foams via high internal phase emulsion and study of their catalytic activity Colloid Polym Sci 288 2010 1031 1039
38. I.J. Brown, D. Clift, and S. Sotiropoulos Preparation of microporous nickel electrodeposits using a polymer matrix Mater Res Bull 34 1999 1055 1064
39. N. Shirshova, P. Johansson, M.J. Marczewski, E. Kot, D. Ensling, A. Bismarck, and J.H. Steinke Polymerised high internal phase ionic liquid-in-oil emulsions as potential separators for lithium ion batteries J Mater Chem A 1 2013 9612 9619
40. S. Kovačič, H. Kren, P. Krajnc, S. Koller, and C. Slugovc The use of an emulsion templated microcellular poly(dicyclopentadiene-co- norbornene) membrane as a separator in lithium-ion batteries Macromol Rapid Commun 34 2013 581 587
41. Z. Bhumgara PolyHIPE foam materials as filtration media Filtration Separ 32 1995 245 251
42. V. Ikem, A. Menner, A. Bismarck, and L. Norman Liquid screen: a novel method to produce an in-situ gravel pack SPE J 2013 10.2118/141256-PA
43. V.O. Ikem, A. Menner, and A. Bismarck Tailoring the mechanical performance of highly permeable macroporous polymers synthesized via Pickering emulsion templating Soft Matter 7 2011 6571 6577
44. D. Walsh, J. Stenhouse, L. Kingsbury, and E. Webster Production and characterisation of polyHIPE foam for aerosol filtration ICHEME Res Event 1996 1072 1074
45. D.C. Walsh, J.I.T. Stenhouse, L.P. Kingsbury, and E.J. Webster PolyHIPE foams: production, characterisation, and performance as aerosol filtration materials J Aerosol Sci 27 Suppl. 1 1996 S629-S630
46. P. Krajnc, N. Leber, D. Štefanec, S. Kontrec, and A. Podgornik Preparation and characterisation of poly(high internal phase emulsion) methacrylate monoliths and their application as separation media J Chromatogr A 1065 2005 69 73
47. C. Zhao, E. Danish, N.R. Cameron, and R. Kataky Emulsion-templated porous materials (polyHIPEs) for selective ion and molecular recognition and transport: applications in electrochemical sensing J Mater Chem 17 2007 2446 2453
48. A.M. Shakorfow Process Intensification in the Demulsification of Water-in-Crude Oil Emulsions Via Crossflow Microfiltration Through a Hydrophilic PolyHIPE Polymer (PHP) Ph.D. thesis 2012 Newcastle University
49. I. Pulko, V. Smrekar, A. Podgornik, and P. Krajnc Emulsion templated open porous membranes for protein purification J Chromatogr A 1218 2011 2396 2401
50. I. Pulko, and P. Krajnc Open cellular reactive porous membranes from high internal phase emulsions Chem Commun 37 2008 4481 4483 10.1039/B807095D
51. A. Menner, K. Haibach, R. Powell, and A. Bismarck Tough reinforced open porous polymer foams via concentrated emulsion templating Polymer 47 2006 7628 7635
52. U. Sevšek, S. Seifried, Č. Stropnik, I. Pulko, and P. Krajnc Poly(styrene-co-divinylbenzene-co-2-ethylhexyl) acrylate membranes with interconnected macroporous structure Materiali in tehnologije Mater Technol 45 2011 247 251
53. E. Ruckenstein, and J.S. Park The separation of water-ethanol mixtures by pervaporation through hydrophilic - hydrophobic composite membranes J Appl Polym Sci 40 1990 213 220
54. E. Ruckenstein Emulsion pathways to composite polymeric membranes for separation processes Colloid Polym Sci 267 1989 792 797
55. E. Ruckenstein, and J.S. Park Stable concentrated emulsions as precursors for hydrophilic-hydrophobic polymer composites Polymer 33 1992 405 417
56. N. Cohen, and M.S. Silverstein One-pot emulsion-templated synthesis of an elastomer-filled hydrogel framework Macromolecules 45 2012 1612 1621
57. R.J. Wakeman, Z.G. Bhumgara, and G. Akay Ion exchange modules formed from polyHIPE foam precursors Chem Eng J 70 1998 133 141
58. F. Svec, and C.G. Huber Monolithic materials: promises, challenges, achievements Anal Chem 78 2006 2100 2107
59. I. Junkar, T. Koloini, P. Krajnc, D. Nemec, A. Podgornik, and A. Štrancar Pressure drop characteristics of poly(high internal phase emulsion) monoliths J Chromatogr A 1144 2007 48 54
60. N.R. Cameron, and A. Barbetta The influence of porogen type on the porosity, surface area and morphology of poly(divinylbenzene) polyHIPE foams J Mater Chem 10 2000 2466 2471
61. M.G. Schwab, I. Senkovska, M. Rose, N. Klein, M. Koch, J. Pahnke, G. Jonschker, B. Schmitz, M. Hirscher, and S. Kaskel High surface area polyHIPEs with hierarchical pore system Soft Matter 5 2009 1055 1059
62. J. Urban, and P. Jandera Polymethacrylate monolithic columns for capillary liquid chromatography J Sep Sci 31 2008 2521 2540
63. J. Yang, G. Yang, H. Liu, L. Bai, and Q. Zhang Novel porous monolithic column using poly(high internal phase emulsion) methacrylate as materials for immunoglobulin separation performance on HPLC Chin J Chem 28 2010 229 234
64. C. Yao, L. Qi, G. Yang, and F. Wang Preparation of sub-micron skeletal monoliths with high capacity for liquid chromatography J Sep Sci 33 2010 475 483
65. P. Myers, and K.D. Bartle Towards a miniaturised system for dynamic field gradient focused separation of proteins J Chromatogr A 1044 2004 253 258
66. Y. Tunç, Ç. Gölgelioǧlu, N. Hasirci, K. Ulubayram, and A. Tuncel Acrylic-based high internal phase emulsion polymeric monolith for capillary electrochromatography J Chromatogr A 1217 2010 1654 1659
67. A. Nordborg, E.F. Hilder, and P.R. Haddad Monolithic phases for ion chromatography Annu Rev Anal Chem 4 2011 197 226
68. J.M. Hughes Development of PolyHIPE Chromatography and Lanthanide-Doped Latex Particles for Use in the Analysis of Engineered Nanoparticles Thesis (Doctoral) 2013 The University of Manchester
69. C. Lucchesi, S. Pascual, G. Dujardin, and L. Fontaine New functionalized polyHIPE materials used as amine scavengers in batch and flow-through processes React Funct Polym 68 2008 97 102
70. J.A. Tripp, J.A. Stein, F. Svec, and J.M.J. Fréchet "Reactive filtration": use of functionalized porous polymer monoliths as scavengers in solution-phase synthesis Org Lett 2 1999 195 198
71. L. Moine, H. Deleuze, and B. Maillard Preparation of high loading polyHIPE monoliths as scavengers for organic chemistry Tetrahedron Lett 44 2003 7813 7816
72. P. Krajnc, J.F. Brown, and N.R. Cameron Monolithic scavenger resins by amine functionalizations of poly(4-vinylbenzyl chloride-co-divinylbenzene) polyHIPE materials Org Lett 4 2002 2497 2500
73. J.A. Tripp, T.P. Needham, E.M. Ripp, B.G. Konzman, and P.J. Homnick A continuous-flow electrophile scavenger prepared by a simple grafting procedure React Funct Polym 70 2010 414 418
74. I. Pulko, M. Kolar, and P. Krajnc Atrazine removal by covalent bonding to piperazine functionalized polyHIPEs Sci Total Environ 386 2007 114 123
75. Z. Tan, Y. Liang, H. Chen, and D. Wang Synthesis of hexadecyl methacrylate/methyl methacrylate copolymer by high internal phase emulsion template and its high oil-absorbing properties Separ Sci Technol 48 2013 2338 2344
76. A.Y. Sergienko, H. Tai, M. Narkis, and M.S. Silverstein Polymerized high internal phase emulsions containing a porogen: specific surface area and sorption J Appl Polym Sci 94 2004 2233 2239
77. I.A. Katsoyiannis, and A.I. Zouboulis Removal of arsenic from contaminated water sources by sorption onto iron-oxide-coated polymeric materials Water Res 36 2002 5141 5155
78. G. Akay, Z.Z. Noor, and M. Dogru Process intensification in water-in-crude oil emulsion separation by simultaneous application of electric field and novel demulsifier adsorbers based on polyhipe polymers Microreactor Technology and Process Intensification 2005 American Chemical Society 378 392