Center for Membrane Applied Science and Technology (MAST Center)

 

Publications List Archive

Works published before advent of MUC (2001)

 

Totals:

Peer Reviewed Articles:                        77

Non Peer-Reviewed Publications:         16

MS Thesis Publications:                        17       

Ph.D. Thesis Publications:                     21

Presentations at Conferences:                219

 

Peer Reviewed Articles

 

 

1.             Bond, L.J.,  Greenberg, A.R., Mairal, A.P., Loest, G.W., Brewster, J.H. and Krantz, W.B.,  “Real-Time Nondestructive Characterization of Membrane Compaction and Fouling,” Review of Progress in Quantitative Nondestructive Evaluation, Thompson, D.O., and Chimenti, D.E. (eds.), Plenum Press, New York, 14: 1167-1173 (1995).

 

2.             Smith, B.M., Bowman, C.N., Todd, P.W., “Boron Removal by Polymer Assisted Ultrafiltration,” Separation Science and Technology, 30 (20): 3849-3859 (1995).

 

3.             Thunhorst, K., Bowman, C.N., and Noble, R.D., “Transport of Ionic Species Through Functionalized Poly (vinyl benzyl chloride) Membranes,” Journal of Membrane Science, 128, 183-193 (1997).

 

4.             Smith, B.M., Owens, J.L., Bowman, C.N. and Todd, P.W., “Thermodynamics of Borate Ester Formation by Three Readily Grafted Carbohydrates,” Carbohydrate Research, 308, 173 (1998).

 

5.             Elliott, B.J., Willis, W.B., and Bowman, C.N., “Polymerization Kinetics of Pseudocrown Ether Network Formation for Facilitated Transport Membranes,” Macromolecules, 32, 3201 (1999).

 

6.             Park, C.S., Clark, N.A. and Noble, R.D., “Giant Field-Induced Deformation of Nematic Liquid Crystal Drops,” Physical Review Letters, 72: 1838-1841 (1994).

 

7.             Davis, R.H., “Modeling of Fouling of Crossflow Microfiltration Membranes,” Separation and Purification Methods, 21: 75-126 (1992).

 

8.             Redkar, S.G. and Davis, R.H., “Crossflow Microfiltration of Yeast Suspensions in Tubular Filters,” Biotechnology Progress, 9: 625-634 (1993).

 

9.             Arora, N. and Davis, R.H., “Yeast Cake Layers as Secondary Membranes in Deadend Microfiltration of Bovine Serum Albumin,”  Journal of Membrane Science, 92: 247-256 (1994).

 

10.         Tracey, E.M. and Davis, R.H., “BSA Fouling of Track-etched Polycarbonate Microfiltration Membranes,”  Journal of Colloid and Interface Science, 167: 104-116 (1994).

 

11.         Belfort, G., Davis, R.H., and Zydney, A.L., “The Behavior of Suspensions and Macromolecular Solutions in Crossflow Microfiltration,” Journal of Membrane Science, 96: 1-58 (1994).

 

12.         Redkar, S.G. and Davis, R.H., “Enhancement of Crossflow Microfiltration Performance Using High Frequency Reverse Filtration,” AIChE Journal, 41: 501-508 (1995).

 

13.         Arora, N. and Davis, R.H., “Crossflow Effects of Axial Pressure Drop on the Length-Averaged Permeate Flux in Microfiltration,” Chemical Engineering Communications, 132: 51-67 (1995).

 

14.         Parnham, C.S. and Davis, R.H., “Protein Recovery From Cell Debris Using Rotary and Tangential Crossflow Microfiltration,” Biotechnology and Bioengineering, 47: 155-164 (1995).

 

15.         Mueller, J. and Davis, R.H., “Protein Fouling of Surface-modified Polymeric Microfiltration Membranes,” Journal of Membrane Science, 116: 47-60 (1996).

 

16.         Parnham, C.S. and Davis, R.H., “Protein Recovery From Bacterial Cell Debris Using Crossflow Microfiltration with Backpulsing,”  Journal of Membrane Science, 118: 259-68 (1996).

 

17.         Guell, C. and Davis, R.H., “Fouling of Microfiltration Membranes by Protein Mixtures,” Journal of Membrane Science, 119: 269-84 (1996).

 

18.         Redkar, S.G., Kuberkar, V., and  Davis, R.H., “Modeling of Concentration Polarization and Depolarization with High-frequency Backpulsing,” Journal of Membrane Science, 121: 229-36 (1996).

 

19.         Mueller, J.,  Cen, Y., and Davis, R.H., “Crossflow Microfiltration of Oily Water,” Journal of Membrane Science, 129: 221-35 (1997).

 

20.         Ramirez, J.A. and Davis, R.H., “Application of Cross-flow Microfiltration with Rapid Backpulsing to wast water Treatment,” Journal of Hazardous Materials, 63: 179-197 (1998).

 

21.         Kuberkar, V.T., Czekaj, P., and Davis, R.H., “Flux Enhancement for Membrane Filtration of Bacterial Suspensions Using High-Frequency Backpulsing,” Biotechnology Bioengineering, 60: 77-87 (1998). 

 

22.         Güell, C., Czekaj, P., Davis, R.H., “Microfiltration of Protein Mixtures and the Effects of Yeast on Membrane Fouling,” Journal of Membrane Science, 155: 113-122 (1999).

23.         Feldheim, D.L. and Elliott, C.M., “Switchable Gate Membranes Conducting Polymer Films for the Selective Transport of Neutral Solution Species,” Journal of  Membrane Science, 70: 9-15 (1992).

 

24.         Feldheim, D.L., Krejcik, M., Hendrickson, S.M., Elliott, C.M., “Interactions of Neutral Organics in Aqueous Solution with Conducting Polymer Films of Poly (N-Methylpyrrole) and Poly (N-methylpyrrole/ polystyrene sulfonate),” Journal of Physical Chemistry, 98: 5714-5720 (1994).

 

25.         Feldheim, D.L., Hendrickson, S.M., Krejcik, M., Elliott, C.M., Foss, Jr., C.A., “Kinetics of Dichloromethane Absorption into the Conductive Polymers Poly (N-methylpyrrole) and Poly (N- methylpyrrole/polystyrene sulfonate),” Journal of Physical Chemistry, 99: (10) 3288-3293 (1995).

 

26.         Feldheim, D.L., Hendrickson, S.M., Krejcik, M. and Elliott, C.M., “Charge Trapping in Poly(3,4-diphenylpyrrole) and Release by Trace Halocarbons in Water,” Chem Mater, 7: 1124-1131 (1995).

 

27.         Poshusta, J.C., Vu, T.A., Falconer, J.L., and Noble, R.D., “Synthesis and Permeation Properties of SAPO-34 Tubular Membranes,” I&EC Research, 37 (10): 3924-3929 (1998).

 

28.         Bennett, K.H., Cook, K.D., Falconer, J.L., and Noble, R.D., “Time-Dependent Permeance of Gas Mixtures Through Zeolite Membranes,” Analytical Chemistry, 71: 1016-1020 (1999).

 

29.         “Expanding Simultaneous Process Mass Spectrometric Analysis”, Bennett, K.H.; Cook, K.D.; Falconer, J.L. and Noble, R.D., J. Process Anal. Chem., 5, 42-49 (2000).

 

30.         “Isomorphous Substitution of Al, Fe, B, and Ge into MFI-Zeolite Membranes”, Vu, T.; Falconer, J.L. and Noble, R.D., Microporous and Mesoporous Materials, 41, 269-280 (2000).

 

31.         “ZrO2 Film Growth by Chemcial Vapor Deposition Using Zirconium Tetra-ter-Butoxide”, Cameron, M.A. and  George, S.M., Thin Solid Films 348, 90 (1999).

 

32.         “Atomic Layer Deposition of SiO2 and TiO2 in Alumina Tubular Membranes:  Pore Reduction and Effect of Surface Species on Gas Transport”, Cameron, M.A., Gartland, I.P.,  Smith, J.A.,  Diaz, S.F,  and George, S.M., Langmuir 16, 7435 (2000).

 

33.         Shojaie, S.S., Greenberg, A.R. and Krantz, W.B. , “Use of an Electric Field to Alter Membrane Morphology in a Polysulfone-Polyvinylpyrrolidone Blend,” Journal of Membrane Science, 79: 115-122 (1993).

 

34.         Greenberg, A.R., Khare, V.P., and Krantz, W.B., “Development of a Technique for the in situ Measurement of the Mechanical Properties of Ultra-thin Interfacially Polymerized Films,” Materials Research Society Proceedings: Thin Films: Stresses and Mechanical Properties V, S.P. Baker, C.A. Ross, P.H. Townsend, C.A. Volkert, and P. Borgesen (eds.), Materials Research Society, Pittsburgh, 356, 541-546 (1995).

 

35.         Greenberg, A.R., Shojaie, S.S., Krantz, W.B., and Tantekin-Ersolmaz, S.B., “Use of Infrared Thermography for Measurement of Surface Temperature During Evaporative Casting of Dense Polymeric Films,” Journal of Membrane Science, 107 (3): 249-261 (1995).

 

36.         Kools, W., Konagurthu, S., Greenberg, A.R., Bond L.J. and Krantz, W.B., “Use of Ultrasonic Time-Domain Reflectometry for Real-Time Measurement of Thickness Changes During Evaporative Casting of Polymeric Films,” Journal of Applied Polymer Science, 69, 2013-2019 (1998).

 

37.         Peterson, R.A., Greenberg, A.R., Bond, L.J. and Krantz, W.B., “Use of Ultrasonic TDR for Real-Time Measurement of Compressive Strain During Membrane Compaction,” Desalination, 116, 115-122 (1998).

 

38.         Mairal, A.P., Greenberg, A.R., Krantz, W.B., and Bond, L.J., “Real-Time Measurement of Inorganic Fouling of RO Desalination Membranes Using Ultrasonic Time-Domain Reflectometry,” Journal of Membrane Science, 159: 185-196 (1999).

 

39.         Reinsch, V.E., Greenberg, A.R., Kelley, S.S., Perterson, R., and Bond, L.J., “A New Technique for the Simultaneous, Real-time Measurement of Membrane Compaction and Performance During Exposure to High-Pressure Gas”, Journal of Membrane Science, 171, 217-228 (2000).

 

40.         Anurag P. Mairal, Greenberg, A.R., Krantz, W.B., “Investigation of Membrane Fouling and Cleaning Using Ultrasonic Time-Domain Reflectometry”, Desalination, 130 (1), 45-60 (2000).

 

41.         Yamaguchi, T., Boetje, L.M., Koval, C.A., Noble, R.D., Bowman, C.N., “Transport Properties of Carbon Dioxide Through Amine Functionalized Carrier Membranes,” Industrial and Engineering Chemistry Research, 34: 4071-4077 (1995).

 

42.         Yamaguchi, T., Koval, C.A., Noble, R.D., and Bowman, C.N., “Transport Mechanism of Carbon Dioxide Through Amine Functionalized Ion-Exchange Membranes,” Chemical Engineering Science, 51 (21): 4781-89 (1996).

 

43.         Yamaguchi, T., Baertsch, C.D., Koval, C.A., Noble, R.D., and Bowman, C.N., “Olefin Separation Using Silver Impregnated Ion-Exchange Membranes and Silver Salt/Polymer Blend Membranes,” Journal of Membrane Science, 117: 151-62 (1996).

 

44.         Rabago, R., Koval, C.A., and Noble, R.D., “Evidence for Parallel Pathways in the Facilitated Transport of Alkenes Through Ag⁺-Exchanged Nafion Films,” Industrial and Engineering Chemistry Research, 35 (4): 1090-96 (1996).

 

45.         Koval, C.A., Bryant, D.L., Roberts, S.L., and Noble, R.D., “Poly(vinyl alcohol)-Silver Nitrate Facilitated Transport Membranes for the Separation of Aromatic and Aliphatic Compounds,” Polymer Membranes for Gas and Vapor Separation: Chemistry and Materials, editors: B.D. Freeman and I. Pinnau, Oxford Press, Chapter 10, 127-134 (1999).

 

46.         Shojaie, S.S., Krantz, W.B. and Greenberg, A.R., “Development and Validation of a Model for the Formation of Evaporatively Cast Polymeric Films,” Journal of Materials Processing & Manufacturing Science, 1: 181-194 (1992).

 

47.         Shojaie, S.S., Krantz, W.B. and Greenberg, A.R., “Modeling and Experimental Studies of the Formation of Evaporatively Cast Dense Polymeric Films,” Proceedings of the First International Conference on Transport Phenomena in Processing,  (Editor S.I. Guceri) Technomic, Lancaster, 1469-1479 (1992).

 

48.         Shojaie, S.S., Krantz, W.B. and Greenberg, A.R., “Dense Polymer Film and Membrane Formation via the Dry-Cast Process: Part I.  Model Development,” Journal of Membrane Science, 94: 255-280 (1994).

 

49.         Shojaie, S.S., Krantz, W.B. and Greenberg, A.R., “Dense Polymer Film and Membrane Formation via the Dry-Cast Process: Part II.  Model Validation and Morphological Studies,” Journal of Membrane Science, 94: 281-298 (1994).

 

50.         Paulsen, F.G., Shojaie, S.S. and Krantz, W.B.,  “Effect of Evaporation Step on Macrovoid Formation in Wet-Cast Polymeric Membranes,” Journal of Membrane Science, 91: 265-282 (1994).

 

51.         Chai, G.Y. and Krantz, W.B., “Formation and Characterization of Polyamide Membranes via Interfacial Polymerization,” Journal of Membrane Science, 93: 175-192 (1994).

 

52.         Tan, L., Krantz, W.B., Greenberg, A.R. and Sani, R.L., “Studies of Convective Transport in Evaporative Casting of Dense Polymeric Films,” Journal of Membrane Science, 108 (3): 245-255 (1995).

 

53.         Krantz, W. B., Bilodeau R. R., Voorhees, M. E. and Elgas, R. J., “Use of Axial Membrane Vibrations to Enhance Mass Transfer in a Hollow Tube Oxygenator,” Journal of Membrane Science, 124: 283-299 (1997).

 

54.         Parthasarathy, A., Brumlik, C. J., Martin, C.R. and Collins, G. E., “Interfacial Polymerization of Thin Polymer Films onto the Surface of a Microporous Hollow-Fiber Membrane,” Journal of Membrane Science, 94: 249-254 (1994).

 

55.         Brumlik, C.J., Parthasarathy, A., Chen, W.J., Martin, C.R., “Plasma Polymerization of Sulfonated Fluorochlorocarbon Ionomer Films,” Journal of Electrochemical Society, 141 (9): 2273-2279 (1994).

 

56.         Chen, W.-J. and Martin, C.R., “Highly Methanol-Selective Membranes for the Pervaporation Separation of Methyl  t-Butyl Ether/Methanol Mixtures,” Journal of Membrane Science, 104: (1-2) 101-108 (1995).

 

57.         Chen, W.-J., Aranda, P. and Martin, C.R., “Pervaporation Separation of Ethanol/Water Mixtures by Polystyrenesulfonate/Alumina Composite Membranes,” Journal of Membrane Science, 107: (3) 199-207 (1995).

 

58.         Wan, C., Noble, R.D., and Clark, N.A., “Control of Gas Permeation via Electrohydrodynamic Convection in a Liquid Crystal Membrane,” Journal of Membrane Science, 74: 223-231 (1992).

 

59.         To, T.T., Noble, R.D., and Koval, C.A., “Effects of Protonation on the Transport of Hydrophobic Nitrogen Heterocycles Through Perflourosulfonate Ionomer Membranes,” Journal of Membrane Science, 75 (3): 293-297 (1992).

 

60.         Pellegrino, J.J., Wang, D., Rabago, R., Noble, R.D. and Koval, C.A., “Gas Transport Properties of Solution-Cast Perfluorosulfonic Acid Ionomer Films Containing Ionic Surfactants,” Journal of Membrane Science, 84: 161-169 (1993).

 

61.         Wan, C., Noble, R.D., and Clark, N.A., “Use of Polar Solvents in an Electroconvective Liquid Membrane for Gas Separation,” Journal of Membrane Science, 84: 191-196 (1993).

 

62.         Rabago, R., Noble, R.D. and Koval, C.A., “Effects of Incorporation of Fluorocarbon and Hydrocarbon Surfactants into Perflourosulfonic Acid (Nafion) Membranes,” Chemistry of Materials, 6: 947-951 (1994).

 

63.         Collins, J.P., Noble, R.D., Park, C.H., and Clark, N.A., “Continued Studies of an Electroconvective Liquid Membrane for Gas Separation,” Journal of Membrane Science, 99: 249-257 (1995).

 

64.         Terry, P.A., Walls, H.J., Noble, R.D., and Koval, C.A., “Electrochemically Modulated Complexation Process for Gas Removal and Concentration,” AIChE Journal, 41 (12): 2556-2564 (1995).

 

65.         Terry, P.A., Noble, R.D., Swanson, D., and Koval, C.A., “Electrochemically Modulated Complexation Process for Ethylene/Ethane Separation,” AIChE Journal, 43 (7): 1709-1716 (1997).

 

66.         Kohls, S.L., Noble, R.D., Koval, C.A., “Effects of Molecular Structure and Equivalent Weight on Facilitated Transport of Alkenes in Ag(I)-PFSI Membranes,” Journal of Membrane Science, 125 (1): 61-73 (1997).

 

67.         Bryant, D.L., Noble, R.D., Koval, C.A., “Facilitated Transport Separation of Benzene and Cyclohexane with Poly(vinyl alcohol) -AgNO₃ Membranes,” Journal of Membrane Science, 127 (2): 161-170 (1997).

 

68.         Suzuki, T., Noble, R.D., and Koval, C.A., “Electrochemistry, Stability and Alkene Complexation Chemistry for Copper (I) Triflate in Aqueous Solution.  Potential for Use in Electrochemically Modulated Complexation Based Separation Processes,” Inorganic Chemistry, 36 (2): 136-140 (1997).

 

69.         Thunhorst, K.L., Noble, R.D., and Bowman, C.N., “Preparation of Functionalized Polymers by Reactions of Poly (Vinylbenzyl Chloride),” Polymer Modification, C.E. Carraher, G. Swift, and C.N. Bowman, Editors, Plenum Publishing, New York, NY,  p. 97 (1997).

 

70.         Thunhorst, K., Noble, R.D., Bowman, C.N., “Properties of the Transport of Alkali Metal Salts Through Polymeric Membranes Containing Benzo-18-Crown-6 Crown Ether Functional Groups,” Journal of Membrane Science, 156: 293-302 (1999).

 

71.         Tuan, V.A.; Noble, R.D. and Falconer, J.L., “Isomorphously Subsititued B-ZSM-5 Membranes: Preparation and Separation Performance”, AIChE Journal, 46(6), 1201-1208 (2000).

 

72.         Flanders, C.L.; Tuan, V.A.; Noble, R.D. and Falconer, J.L., “Separation of C₆ Isomers by Vapor Permeation and Pervaporation Through ZSM-5 Membranes”, Journal of Membrane Science, 176 (1), 43-54 (2000).

 

73.         Roberts, S.L.; Noble, R.D.; and Koval, C.A., “Strategy for Selection of Composite Membrane Materials”, Industrial and Engineering Chemistry Research, 6, 1673-1682 (2000).

 

74.         Allshouse, J., Kaul, B.B., and Rakowski-DuBois, M., “Synthesis of Water Soluble Sulfur Bridged Molybdenum Dimers with Substituted Cyclopentadienyl Ligands,” Organometallics, 13: 28-36 (1994).

 

75.         Koval, C.R., Lopez, L.L., Kaul, B.B., Renshaw, S., Green, K.A., and Rakowski-DuBois, M., “Kinetic Studies of Olefin Binding to Sulfide Sites in Dinuclear Molybdenum Complexes,” Organometallics, 14: 3440-3447 (1995).

 

76.         Smith, B.M., Todd, P.W., and Bowman, C.N., “An Empirical and Modeling Study of Boron Speciation on Solution with a Reactive Dendrimeric Polymer,” Polymer Modification, C.E. Carraher, G. Swift, and C.N. Bowman, Editors, Plenum Publishing, New York, NY, p. 197 (1997).

 

77.         Smith, B.M., Todd, P.W., and Bowman, C.N., “Hyperbranched Chelating Polymers for the Polymer Assisted Ultrafiltration of Boric Acid,” Separation Science and Technology  34 (10): 1925-1945 (1999).

 

 

 

Non Peer-Reviewed Publications

 

1.             Redkar, S.G. and Davis, R.H., “Crossflow Microfiltration and Membrane Fouling for Yeast Cell Suspensions,” Proc. 21st Annual Biochemical Engineering Symposium (ed. K.F. Reardon), pp. 65-74 (1991).

 

2.             Redkar, S.G. and Davis, R.H., “Crossflow Filtration of Yeast Suspensions,” Proc. 22nd Annual Biochemical Engineering Symposium (ed. P.J. Reilly), pp. 133-142 (1992).

 

3.             Arora, N. and Davis R.H., “Deadend Microfiltration of Bovine Serum Albumin Suspension Through Yeast Cake Layers and Asymmetric Polymeric Membranes,” Advances in Filtration and Separation Technology, 7: 653-656 (1993).

 

4.             Redkar, S.G., Davis, R.H. and Ramirez, W.F., “Optimization of Crossflow Filtration Using Backpulsing as a Cleaning Method,” Advances in Filtration and Separation Technology, 7: 629-632 (1993).

 

5.             Tracey, E.M. and Davis, R.H., “Protein Fouling of Polycarbonate Track-Etched and Cellulose Acetate Membranes,” Advances in Filtration and Separation Technology, 7: 427-430 (1993).

 

6.             Parnham, C.S. III and Davis, R.H., “Rotary and Tangential Crossflow Microfiltration for Protein Recovery from Cell Debris,” Advances in Filtration and Separation Technology, 7: 349-352 (1993).

 

7.             Davis, R.H., “Industrial Involvement in Graduate Research,” Chemical Engineering Education, 28: 274-277 (1994).

 

8.             Redkar, S.G. and Davis, R.H., “Using High-Frequency Backpulsing to Maximize Crossflow Filtration Performance,” Proc. 24th Annual Biochemical Engineering Symposium (ed. R.H. Davis), 22-30 (1994).

 

9.             Güell, C., Czekaj, P., and Davis, R.H., “Membrane Fouling During Micro-filtration of a Protein Mixture and a Yeast Suspension,” Proc. 13^th Int. Cong. Chem. Proc. Engr. (1998).

 

10.         Ramirez, J. and Davis, R.H., “Water Treatment by Microfiltration and Backpulsed Microflotation,” Canadian Chemical News, pp.19-20, January (1999).

 

11.         Shojaie, S.S., Greenberg, A.R. and Krantz, W. B., “Influence of Electric Fields on Interfacial Stability During Polymeric Membrane Formation,” Proceedings of the Industry-University Advanced Materials Conference, F.W. Smith, (ed.), Advanced Materials Institute, Golden, CO, 687-693 (1989).

 

12.         Shojaie, S.S., Greenberg, A.R. and Krantz, W. B., “Influence of Electric Fields on Large Scale Structures in Non-Solvent Precipitated Polymeric Membranes,”  Polymer Preprints, 31: 382-383 (1990).

 

13.         Krantz, W. B., “Opportunities for International Cooperation in Membrane Education and Technology Transfer,” Membrane Quarterly, 11(2): 6-9 (1996).

 

14.         Thunhorst, K.L., Noble, R.D., and Bowman, C.N., “Preparation of Functionalized Polymers by Reactions of Poly(Vinyl Benzyl Chloride),” Polymeric Materials Science and Engineering Proceedings, 75: 147 (1996).

 

15.         Holcombe, E.F., Watkins, B.A., Sievers, R.E., “Cleanup of Metallic Contamination Using Supercritical Carbon Dioxide Extraction,” Rocky Flats Progress Report, December, (1995). 

 

16.         Smith, B.M., Todd, P.W., and Bowman, C.N., “An Empirical and Modeling Study of Speciation for Reactive Dendrimeric Polymers in Solution,” Polymeric Materials Science and Engineering Proceedings, 75: 331 (1996).

 

 

 

Thesis Publications

 

1.             Weber, Michael W., “Development of a New Technique to Study Nanofiltration Membranes,” M.S. Thesis, University of Colorado, Boulder, 2000 (Barocas, V.H., Greenberg, A.R. and Krantz, W.B.).

 

2.             Solis, Minerva, “Heavy Metal Ion Transport Using Fixed Site Carrier,” M.S. Thesis, University of Colorado, Boulder, 1994, (Bowman, C.N. and Noble, R.D.).