Appendix 5

 

 CENTER FOR MEMBRANE APPLIED SCIENCE

AND TECHNOLOGY

EIGHTEENTH UPDATE, OCTOBER 2008

PUBLICATION LIST, AS OF INCEPTION OF MUC (2001)

 

The publications are listed alphabetically by the

first-listed Center faculty author (in bold).

 

 PEER-REVIEWED PUBLICATIONS

 

1. “Characterization of DOM as a function of MW by fluorescence EEM and HPLC-SEC with UVA, DOC, and fluorescence detection,” N. Her, G. Amy, D. McKnight, J. Sohn, and Y. Yoon, Water Research, 37:4295 (2003).

 

2. “Characterizing algogenic organic matter (AOM) and evaluating associated NF membrane fouling,” N. Her, G. Amy, H. Park, and M. Song, Water Research, 38:1427 (2004).

 

3. “Rejection of trace organic compounds by high-pressure membranes”, T. Kim, G. Amy, and J. Drewes, Water Science and Technology, 51(6-7) 335-344 (2005). 

 

4. “Solid support membranes for ion channel arrays and sensors:  application to rapid screening of pharmacological compounds,” Matsuno, N.; Murawsky, M; Ridgeway, J.; and Cuppoletti, J.; Biophysica Acta (BBA)/Biomembranes Volume 1665, Issue 1-2, October 11, 2004, pp. 184-190 (2004).

 

5. Davis, R.H., “Cross-Flow Microfiltration with Backpulsing,” Membrane Separations in Biotechnology:  Second Edition, Revised and Expanded (ed. W.K. Wang), Marcel Dekker, 161-188 (2001).

 

6. Kalipcilar, H.; Falconer, J.L. and Noble, R.D.; “Preparation of B-ZSM-5 Membranes on a Monolith Support”, Journal of Membrane Science, 194 (1), 141-144 (2001).

 

7. Tuan, V.A., Li, S., Falconer, J.L. and Noble, R.D., “Separating Organics from Water by Pervaporation with Isomorphously-Substituted MFI Zeolite Membranes”, Journal of Membrane Science, 196 (1), pp.111-123 (2002).

 

8. Bowen, T.C., Falconer, J.L., Noble, R.D., Skoulidas, A.I., and Sholl D.S., “A Comparison of Atomistic Simulations and Experimental Measurements of Light Gas Permeation Through Zeolite Membranes”, Industrial and Engineering Chemistry Research, 41(6), 1641-1650 (2002).

 

9. Bowen, T.C., Li, S., Tuan, V.A., Falconer, J.L. and Noble, R.D., “Pervaporation of Aqueous Organic Mixtures through Ge-ZSM-5 Zeolite Membranes”, Desalination, 147, 327-329 (2002).

 

10. Bowen, T.C.;  Kalipcilar, H.; Falconer, J.L. and Noble, R.D.; “Separation of C4 and C6 Isomer Mixtures and Alcohol-Water Solutions by Monolith Supported B-ZSM-5 Membranes”, Desalination, 147, 331-332 (2002).

 

11. Skoulidas, A.I., Bowen, T.C., Doelling, C.M., Falconer, J.L., Noble R.D., and Sholl, D.S., “Comparing Atomistic Simulations and Experimental Measurements for CH4/CF4 Mixture Permeation Through Silicalite Membranes,” Journal of Membrane Science, 227, 123-136 (2003).

 

12. Bowen, T.C.; Kalipcilar, H.; Falconer, J.L. and Noble, R.D.; “Pervaporation of Organic/Water Mixtures through B-ZSM-5 Zeolite Membranes on Monolith Supports”, Journal of Membrane Science, 215, 235-247 (2003).

 

13. Li, S.; Tuan, V.A.; Falconer, J.L. and Noble, R.D.; “Properties and Separation Performance of Ge-ZSM-5 Membranes”, Microporous and Mesoporous Materials, 58, 137-154 (2003).

 

14. Tuan, V.A.; Weber, L.L.; Falconer, J.L. and Noble, R.D.; “Synthesis of novel-B-Substitute Beta Zeolite Membrane”, Industrial and Engineering Chemistry Research, 42 (13) 3019-3021 (2003).

 

15. “Low Temperature Plasma Treatment of Asymmetric Polysulfone Membranes for Permanent Hydrophilic Surface Modification,” Steen, M. L., Hymas, L., Capps, N. E., Havey, E. D., Castner, D. G. and Fisher, E. R., Journal of Membrane Science, 188, 97-114 (2001).

 

16. “Plasma Modification of Porous Structures for Formation of Composite Materials,” Steen, M. L., Flory, W. C., Capps, N. E., and Fisher, E. R. Chemistry of Materials, 13, 1749-2752 (2001).

 

17. “Advances in Biotreatment of Acid Mine Drainage and Biorecovery of Metals:  1.  Metal precipitation for recovery and recycle”, Tabak, H., Scharp, R., Burkle, J., Kawahara, F., Govind, R.; Biodegredation, Volume 14, Issue 6, December 2003, pp 423-436 (2003).

 

18. “Advances in Biotreatment of Acid Mine Drainage and Biorecovery of Metals:  2.  Membrane Bioreactor System for Sulfate Reduction”, Tabak, H., Govind, R.; Biodegredation, Volume 14, Issue 6, December 2003, pp 437-452 (2003).

 

19. Aerts, P. Greenberg. A.R., Leysen, R, Krantz, W.B., Reinsch V.E., and Jacobs, P.A., “The Influence of Filler Concentration on the Compaction and Filtration Properties of Zirfon-Composite Ultrafiltration Membranes,” Separation and Purification Technology, 22-23, 663-669 (2001).

 

20. Kelley, S.S., Greenberg, A.R., Filley, J., Peterson, R., and Krantz, W.B., “Chemical Modification of Cellulose Acetate with Titanium Isopropoxide”, International Journal of Polymer Analysis and Characterization, 7, 162-180 (2002).

 

21. Khare, V.P., Greenberg, A.R.; Zartman, J., Todd, P., and Krantz, W.B.; “Macrovoid Growth  During Polymer Membrane Casting,” Desalination, 145, 17-23 (2002). 

 

22. Pekny, M.R.; Greenberg, A.R.; Khare, V.P., Zartman, J., Todd, P., and Krantz, W.B.; “Macrovoid Pore Formation in Dry-Cast Cellulose Acetate Membranes:  Buoyancy Studies,” Journal of Membrane Science, 205, 11-21 (2002). 

 

23. Ramaswamy, S., Greenberg, A.R., and Krantz, W.B., “Fabrication of Poly (ECTFE) Membranes via Thermally Induced Phase Separation”, Journal of Membrane Science, 210, 175-180, (2002).

 

24. Pekny, M.R.; Greenberg, A.R.; Khare, V.P., Zartman, J., Todd, P., and Krantz, W.B.; “Flow Visualization During Macrovoid Pore Formation in Dry-Cast Cellulose Acetate Membranes”, Journal of Membrane Science, 211, 71-90 (2002). 

 

25. Zhang, Zh.-X, Greenberg, A.R., Krantz, W.B., and Chai, G.-Y., “Study of Membrane Fouling and Cleaning in Spiral Wound Modules Using Ultrasonic Time-Domain Reflectometry,” in New Insights into Membrane Science and Technology:  Polymeric and Biofunctional Membranes, A.A. Butterfield and D. Bhattacharyya, eds.  Elsevier, Amsterdam, 65-88, (2003).

 

26. Greenberg, A.R., and Krantz, W.B., “Ultrasonic Sensors for the Real-Time Measurement of Reverse Osmosis Membrane Module Fouling and Cleaning,” Fluid/Particle Separation Journal, 15(1) 43-49 (2003).

 

27. Khare, V.P., Greenberg, A.R., and Krantz, W.B., “Development of Pendant Drop Mechanical Analysis (PDMA) as a Technique for Determining the Stress Relaxation and Water Permeation Properties of Interfacially Polymerized Barrier Layers,” Journal of Applied Polymer Science, 90(10), 2618-2628, (2003).

 

28. Chai, G.; Greenberg, A.R.; and Krantz, W.B.; “Study of Using In-Situ Ultrasonic Measurement Technique in Membrane Separation,” Journal of Membrane Science and Technology (China), 23(4) 135-141 (2003).

 

29. Ramaswamy, S.; Greenberg, A.R.; and Peterson, M.L.; “Non-Invasive Measurement of Membrane Morphology via UFDR:  Pore-Size Characterization,” Journal of Membrane Science, 239(1), 143-154 (2004).

 

30. Hellman, D.J.; Greenberg, A.R.; and Krantz, W.B.; “A Novel Process for Membrane Fabrication:  Thermally Assisted Evaporative Phase Separation (TAEPS),” Journal of Membrane Science, 230(1-2), 99-109 (2004).

 

31. Khare, V.P.; Greenberg, A.R.; and Krantz, W.B.; “Investigation of the Viscoelastic and Transport Properties of IP Barrier Layers Using Pendant Drop Mechanical Analysis,” Journal of Applied Polymer Science, 94, 558-568 (2004). 

 

32. Soice, N.P.; Greenberg, A.R.; Krantz, W.B.; and Norman, A.D., “Oxidative Degradation of Polyamide Reverse Osmosis Membranes:  Studies of Molecular Model Compounds and Selected Membranes,” Journal of Membrane Science, 243, 345-355 (2004). 

 

33. V.P. Khare, A.R. Greenberg, and W.B. Krantz, “Vapor Induced Phase Separation - Effect of the Humid Air Exposure Step on Membrane Morphology: Part I. Insights from Mathematical Modeling,” Journal of Membrane Science, 258, 140-156 (2005).

 

34. I.J. Roh, A. R. Greenberg, and V. P. Khare^, “Synthesis and Characterization of Interfacially Polymerized Polyamide Thin Films.”  Desalination, 191, 279-290 (2006).

 

35. D. Li, A.R. Greenberg, W.B. Krantz, and R.L. Sani; “Membrane Formation via Thermally Induced Phase Separation (TIPS) – Model Development and Validation.”  Journal of Membrane Science, 279, 50-60 (2006).

 

36. Z. Zhang, A.R. Greenberg and V.M. Bright,  “Use of capacitive microsensors and ultrasonic time-domain reflectometry for in-situ quantification of concentration polarization and membrane fouling in pressure-driven membrane filtration.”  Sensors and Actuators B: Transducers XIII; Chemical; 117 (2) 323-331 (2006)

 

37. G.-Y. Chai, A.R. Greenberg and W.B. Krantz, “Ultrasound Gravimetric, and SEM Studies of Inorganic Fouling in Spiral-Wound Membrane Modules”, Desalination, 208, 277-293-18 (2007).

 

38. Khare, V.P., Greenberg, A.R., Kelley, S.S., Pilath, H., Roh, I.J., and Tyber, J., “Synthesis and Characterization of Dense and Porous Cellulose Films,”, Journal of Applied Polymer Science, 105, 1228-1236 (2007). 

 

39. Fonseca, A.C., Greenberg, A.R., Summers, R.S., and Hernandez, M.T., “Extra-Cellular Polysaccharides, Soluble Microbial Products, and Natural Organic Matter Impact on Nanofiltration Membranes Flux Decline,”, Environmental Science and Technology, 41 (7), 2491-2497 (2007).

 

40. Ramaswamy, S., Greenberg, A.R., and Peterson, M.L., “Ultrasonic Detection of Defects in Highly Porous Polymeric Membranes,” Insight, the British Institute of Non-Destructive Testing, 49 (11), 651-656 (2007). 

 

41. Greenberg, A.R.; and Krantz, W.; “Use of UTDR for Membrane Characterization”, in Membranes:  Manufctuing Utilizing Six Sigma and Applications, Norman Li, A.G. Fane, S. Winston Ho, and T. Matsuura, Eds., John Wiley and Company, 2008. 

 

42. Duclos-Orsello, C.; Li, W.; and Ho, C.C.; “A Three Mechanism Model to Describe Fouling of Microfiltration Membranes”, Journal of Membrane Science, 2006.

 

43. Duclos-Orsello, C.; Li, W.; and Ho, C.C.; “Theoretical Analysis of Effects of Asymmetric Membrane Structure on Fouling during Microfiltration.”  AIChE Journal, 2008.

 

44. Singh, N.; Chen, Z.; Tomer, N.; Husson, S.M.; Wickramasinghe, S.R.; Soice, N.; “Modification of Regenerated Cellulose Ultrafiltration Membranes by Surface-Initiated Atom Transfer Radical Polymerization”, Journal of Membrane Science, 311, 225-234, 2008. 

 

45. She, M., and Hwang, S.T., “Concentration of Dilute Flavor Compounds by Pervaporation:  Permeate Pressure Effect and Boundary Layer Resistance Modeling,” Journal of Membrane Science, 236, 193-202 (2004). 

 

46. Gupta, V.K., Hwang, S.T., Krantz, W.B., and Greenberg, A.R., “Characterization of Nanofiltration and Reverse Osmosis Membrane Performance for Aqueous Salt Solutions using Irreversible Thermodynamics”, Desalination , 208, 1-18 (2007). 

 

47. Scovazzo, P.; Visser, A.; Davis, J. Jr.; Rogers, R.; Koval, C.A.; DuBois, D.; and Noble R.D.; “Supported Ionic Liquid Membranes (SILMs) and Facilitated Ionic Liquid Membranes (FILMs)”, Ionic Liquids: Industrial Applications to Green Chemistry, American Chemical Society Symposium Series 818, Eds:  Robin D. Rogers, Kenneth R. Seddon, 69-87 (2002). 

 

48. Scovazzo, P., Poshusta, J., DuBois, D., Koval, C.A., and Noble, R.D., “Electrochemical Separation and Concentration of <1% Carbon Dioxide from Nitrogen,” Journal of Electrochemical Society, D91, 150 (2003).

 

49. Camper, D.; Becker, C.; Koval, C.A. and Noble, R.D., “Low Pressure Hydrocarbon Solubility in Room Temperature Ionic Liquids Containing Imidazolium Rings, Interpreted using Regular Solution Theory”, Industrial and Engineering Chemistry Research, 44, 1928 (2005). 

 

50. Chai, G.-Y, Krantz, W.B., and Greenberg, A.R., “Measurement of Membrane Fouling in Spiral-Wound Modules”, Proceedings of the 6^th World Congress of Chemical Engineering, September 23-27, 2001, Melbourne, Australia (available on CD ROM) (2001).

 

51. Krantz, W.B., “Membrane Science and Technology in the 21^st Century,” Dow Award Lecture, Chemical Engineering Education, 38(2), 94-99 (2004).

 

52. Krantz, W.B.; Gupta, V.K.; Hwang, S.-T., and Greenberg, A.R.; “Characterization of Nanofiltration and Reverse Osmosis Membrane Performance for Aqueous Salt Solutions using Irreversible Thermodynamics”, Desalination, 208, 1-18 (2007). 

 

53. Krantz, W.B.; Chai, G.-Y.; and Greenberg, A.R.; “Ultrasound, Gravimetric, and SEM Studies of Inorganic Fouling in Spiral-Wound Membrane Modules”, Desalination, 208, 277-293 (2007).

 

54. Anim-Mensah, A; Mark, J; and Krantz, W.B.; “Use of solubility parameters for predicting the separation characteristics of poly(dimethyl-siloxane) and siloxane-containing membranes”, Chapter 14 in  Science and Technology of Silicone and Silicone Modified Materials, ACS Symposium Series #964, by S. J. Clarson, J.J. Fitzgerald, M.. Owen, S.D. Smith, and M.E. Van Dyke (eds.) Oxford University Press, UK 2007. 

 

55. Li, S.; Tuan, V.A.; Noble, R.D. and Falconer, J.L.; “A Ge-Substituted ZSM-5 Zeolite Membrane for Separation of Acetic Acid from Water”, Industrial and Engineering Chemistry Research, 40, 6165-6171 (2001). 

 

56. Vu, T.; Li, S.; Noble, R.D. and Falconer, J.L., “Preparation and Pervaporation Properties of a MEL Zeolite Membranes”, Chemical Communications, 583-584 (2001).

 

57. Gade, S.K.; Vu, T.; Gump, C.J.; Noble, R.D. and Falconer, J.L., “Highly Selective Separation of n-Hexane from Branched, Cyclic and Aromatic Hydrocarbons using Z-ZSM-5 Membranes”, Chemical Communications, 601-602 (2001).

 

58. Kalipcilar, H.; Gade, S.K.; Noble R.D. and Falconer, J.L.; “Synthesis and Separation Properties of B-ZSM-5 Zeolite Membranes on Monolith Supports”, Journal of Membrane Science, 210 (1), 113-128 (2002). 

 

59. Noble, R.D., and Terry, P., “Principles of Chemical Separations with Environmental Applications,” Cambridge Press (2003). 

 

60. Burganos, V.N., Noble, R.D., Asaeda, M., Ayral, A., LeRoux, J.D., “Membranes—Preparation, Properties, and Applications”, Materials Research Society Proceedings, Vol. 752 (2003).

 

61. Scovazzo, P.; Kieft, J.; Finan, D.; and Noble, R.D.; “Regular Solution Theory and CO2-Gas Solubility in Room Temperature Ionic Liquids”, Industrial and Engineering Chemistry Research, 43, 6855-6860 (2004).

 

62. Scovazzo, P.; Kieft, J.; Finan, D.; Noble, R.D. and Koval, C.A.; “Gas Separations Using Non-Hexafluorophosphate [PF6]-Anion Supported Ionic Liquid Membranes”, Journal of Membrane Science, 238, 57-64 (2004). 

 

63. Camper, D.; Scovazzo, P. and Noble, R.D.; “Gas Solubilities in Room Temperature Ionic Liquids”, Industrial and Engineering Chemistry Research, 43 (12), 3049-3054 (2004).

 

64. Shah, M.R.; Noble, R.D. and Clough, D.E.; “Pervaporation-Air Stripping Hybrid Process for the Removal of VOCs from Groundwater”, Journal of Membrane Science, 241, 257-263 (2004). 

 

65. Park, C.S., Clark, N.A., and Noble, R.D., “A Convective Turbulent State that Spatially Orders Upon Increased Drive”, Physics of Fluids, 17 055101(2005).

 

66. Noble, R.D. and Agrawal, R., “Separation Research Needs for the 21^st Century”, Industrial and Engineering Chemistry Research, 44 (9), 2887-2892 (2005). 

 

67. Arruebo, M.; Noble, R.D., and Falconer, J.L.; “Separation of Binary C5 and C6 Hydrocarbon Mixtures through MFI Zeolite Membranes”, Journal of Membrane Science, 269 (1-2), 171-176 (2006)

 

68. Motuzas, J.; Julbe, A.; Noble, R.D.; and Beresnevicius, Z.J.; “Rapid Synthesis of Silicalite-1 Seeds by Microwave-Assisted Hydrothermal Treatment”, Microporous and Mesoporous Materials, 92 (1-3), 259-269, (2006).

 

69. Camper, D.; Becker, C.; Noble, R.D.; and Koval, C.; “Diffusion and Solubility in Room Temperature Ionic Liquids”, Industrial and Engineering Chemistry Research, 45(1), 445-450 (2006).

 

70. Shah, M.R.; Noble, R.D.; and Clough, D.E.; “Analysis of Transient Permeation as a Technique for Determination of Sorption and Diffusion in Supported Membranes”, Journal of Membrane Science, (280), 452-460 (2006).

 

71. Camper, D.; Bara, J.E.; Noble, R.D.; and Koval, C.; “Bulk Fluid Solubility and Membrane Feasability of RMIM-based Room Temperature Ionic Liquids”, Industrial and Engineering Chemistry Research, 45(17), 6032-6043 (2006). 

 

72. Soice, N.P., Maladono, A.C., Takigawa, D.Y., Norman, A.D., Krantz, W.B., and Greenberg, A.R., “Oxidative Degradation of Polyamide Reverse Osmosis Membranes:  Studies of Molecular Model Compounds and Selected Membranes,” Journal of Applied Polymer Science, 90(5), 1173-1184, (2003).

 

73. Colyar, K.R., Pellegrino, J., Kadam, K.; “Fractionation of Pre-Hydrolysis products from lignocellulosic biomass by an ultrafiltration ceramic tubular membrane”, Separations Science Technology, 43, pp447-476 (2008). 

 

74. Small, D.J.; Pellegrino, J.; Gutierrez-Padilla, M.G.; “Fractionation of Aqueous Copper and Iron Species with Ultrafiltration Membranes.  Eng. Res. Chem., (2008). 

 

75. Lin, L.; Peterson, M.L., and Greenberg, A.R.; “Generation and Propagation of Ultrasonic Plate Wave in Fluid-Loaded Porous Polymeric Membrane,” Insight, the British Institute of Non-Destructive Testing, 49, 213-216 (2007). 

 

76. Schaefer, D.W., Justice, R.S., Koerner, H., Vaia, R., Zhao, C., Yang, M., and Vale, J.; “Large-Scale Morphology of Dispersed Layered Silicates.”, Neutron and X-Ray Scattering as Probes of Multi-Scale Phenomenon, D. Pochan, S.R. Bhatia, P.G. Khalifah and P. Radaelli; Warrendale, PA, Materials Research Society, v. 840, 2005.  

 

77. Singh, N.; Chen, Z.; Tomer, N.; Wickramasinghe, S. R.; Soice, N.; and Husson, S.; “Modification of Regenerated Cellulose Ultrafiltration Membranes by Surface-Initiated Atom Transfer Radical Polymerization.”  Journal of Membrane Science, 2008. 

 

78. Hartmann, R.L., and Williams, S.K.R., “Flow Field-Flow Fractionation as an Analytical Technique to Rapidly Quantitate Membrane Fouling”, Journal of Membrane Science, 209, 93-106 (2002).

 

NON-PEER REVIEWED PUBLICATIONS

 

1. Anim-Mensah, A.; Franklin, J; Salazar, L; Mast, D; Mark, J; Clarson, S; and Krantz, W.B.; “Use of Ultrasound to Determine Selected Mechanical Properties of Silicone Films”, submitted for publication in Science and Technology of Silicone and Silicone Modified Materials, Oxford University Press, 2006. 

 

THESIS PUBLICATIONS

 

1. Jarusutthirak, C., “Fouling and Flux Decline of Reverse Osmosis, Nanofiltration, and Ultrafiltration Membranes Associated with Effluent Organic Matter during Wastewater Reclamation/Reuse”, Ph.D. Thesis, University of Colorado, 2002.  (Amy, G.)

 

2. Her, N., “Identification and Characterization of Foulants and Scalants on an NF Membrane”, Ph.D. Thesis, University of Colorado, 2002.  (Amy, G.)

 

3. Lee, N., “Natural Organic Matter (NOM) Fouling of Low-Pressure (MF and UF) Membranes:  Identification of Foulants, Fouling Mechanisms, and Evaluation of Pretreatment”, Ph.D. Thesis, University of Colorado, 2004. (Amy, G.)

 

4. Kim, T.-U., “Transport of Organic Micropollutants through Nanofiltration (NF) and Reverse Osmosis (RO) Membranes:  Mechanisms, Modeling, and Applications”, Ph.D. Thesis, University of Colorado, May 2006. (Amy, G.; Summers, R.S.; Drewes, J.)

 

5. Matsuno, N., “Theoretical and Experimental Studies of Ion Transport Through Biological Membrane Channels”, Ph.D. Thesis, University of Cincinnati, August, 2003 (Beck, T.)

 

6. Franklin, J.; “Implantation of Biocompatible Fibers for the Coupling of Muscle Groups”, M.S. Thesis, University of Cincinnati, July, 2005 (Clarson, S.)

 

7. Anim-Mensah, A.; “Evaluation of Solvent Resistant NanoFiltration (SRNF) Membranes for Small-Molecule Purification and Recovery of Polar Aprotic Solvents for Re-Use,” Ph.D. Thesis, University of Cincinnati, August 2007 (Clarson, S.)

 

8. Bowen, T., "Fundamentals and Applications of Pervaporation Through Zeolite Membranes," Ph.D. Thesis, University of Colorado, Boulder, December 2003, (Falconer, J. and Noble, R.D.).

 

9. Steen, Michelle. L. “Surface Modification of Porous Polymeric Materials Using Low-Temperature Plasmas,” Ph.D. Thesis, Colorado State University, Fort Collins, 2001, (Fisher, E. R.).

 

10. Hu, Naiping, “Molecular simulation of Polyphosphazenes as Gas Separation and Direct Methanol Fuel Cell (DMFC) Membranes”, Ph.D. Thesis, University of Cincinnati, December 2003 (Fried, J.).

 

11. Jain, Abhishek, “Development of Membranes Using Liquid Crystal Polymers”, M.S. Thesis, University of Cincinnati, January 2005 (Govind, R.).

 

12. Zhang, Zhongxia, “Development of Sensors for Real-time Characterization of Concentration, Polarization and Membrane Fouling”, Ph.D. Thesis, University of Colorado, Boulder, 2005 (Greenberg, A.R., and Bright, V.M.).

 

13. Fonseca, A. Cristina., “Biofouling of Nanofiltration Membranes and In-Situ Biofilm Detection”, Ph.D. Thesis, University of Colorado, Boulder, 2002 (Greenberg, A.R., and Hernandez, M.T.).

 

14. Ramaswamy, Senthilkumar, “Development of an Ultrasonic Technique for the Non-Invasive Characterization of Membrane Morphology”, Ph.D. Thesis, University of Colorado, Boulder, 2002 (Greenberg, A.R., Peterson, M.).

 

15. Sarang, Sanjay, “Methacrylate and Ca-alginate polymers as barrier coatings for protection and controlled release of Vitamin C”, M.S. Thesis, University of Cincinnati, 2004 (Guliants, V., and Lin, Y.S.)

 

16. Evans, Emily, “"Ultrasonic Reflectometry for Monitoring Biofilm Growth on Water Treatment Membranes", M.S. Thesis, University of Colorado (M.T. Hernandez and A.R. Greenberg), 2005.

 

17. Gupta, Vineet, “Experimental and Theoretical Studies in Reverse Osmosis and Nanofiltration”, M.S.  Thesis, University of Cincinnati, 2003 (Krantz, W.B. , and Hwang, S.-T.). 

 

18. Shah, Mitesh, “An Analysis of Membrane-Based Hybrid Processes”, M.S. Thesis, University of Colorado, 2004 (Noble, R.D., and Clough, D.)

 

19. Camper III, Dean E., “Gas Solubuility and Diffusion in Room Temperature Ionic Liquids with an Empahsis on Gas Separations”, Ph.D. Thesis, University of Colorado, 2006 (Noble, R.D., and Koval, C.)

 

20. Soice, Neil P., “Organic and Inorganic Polyamides: Studies of Their Synthesis and Reactivity,” Ph.D. Thesis, University of Colorado, Boulder, 2001, (Norman, A.D. and Greenberg, A.R.).

 

21. Mukherjee, Abhik, “Characterization of Ultrafiltration Membranes”, M.S. Thesis, Colorado State University, 2008 (Wickramasinghe, R.)

 

22. (insert name here), “The Influence of Membrane Hydrophilicity and Microstructure on Flux Decline During Protein Microfiltration,” M.S. Thesis, Colorado State University, 2008 (Wickramasinghe, R.)

 

23. Hartmann, R.L., “Studying Sample-Membrane Interactions Using Flow Field-Flow Fractionation”, M.S. Thesis, Colorado School of Mines, Golden, 2002 (Williams, K.).

 

 

PRESENTATIONS AT CONFERENCES/MEETINGS

 

1. “Characteristics of DOM as a Function of MW by HPLC-SEC using UBA, Fluorescence, and DOC,” N. Her, G. Amy, H. Park, J. Yoon, and M. Song, presented at AWWA WQTC Conference, San Antonio, Texas, and published in Conference Proceedings, 2001. 

 

2. “Nanofiltration and Ultrafiltration of Wastewater Effluent (EfOM)”, C. Jarusutthirak, G. Amy, J.P. Croue, and P. Fox, presented at IWA Conference, Melbourne, Sydney, and published in Conference Proceedings, 2002. 

 

3. “Novel Methods for Characterizing Algogenic Organic Matter (AOM) and Associated Membrane Fouling”, N. Her, G. Amy, H. Park, J. Yoon, and M. Song, presented at IWA MDIW Conference in Mulheim, Germany, and published in Conference Proceedings, 2002.  

 

4. “Fouling of High Pressure (NF and RO) Membranes by Soluble Microbial Products (SMP) Associated with Wastewater Effluent Organic Matter (EfOM)”, C. Jarusutthirak and G. Amy, presented at AWWA MTC Conference, Atlanta, GA, and published in Conference Proceedings, 2003.

 

5. “Morphological analyses of low-pressure membranes (MF/UF) fouled by  natural organic matter (NOM)”,  N. Lee, G. Makdissy, G. Amy, J-P. Croue, H. Buisson, and J-C Schrotter, AWWA Membrane Technology Conference, and published in Conference Proceedings, 2003.

 

6. “Low Pressure membrane (MF/UF) Fouling associated with allochthonous versus autochthonous natural organic matter (NOM)”, N. Lee, G. Amy, J-P. Croue presented at AWWA Annual Conference and Exposition, published in conference proceedings, 2004.

 

7. “Identification of Organic Foulants and Fouling Mechanisms in Low Pressure Membrane (MF/UF) Filtration”, N. Lee, G. Amy, J-P. Croue, presented at International Water Association Water Environment Membrane Technology Meeting, Korea, and published in Conference Proceedings, 2004.

 

8. “Rejection of trace organic compounds by high-pressure membranes”, T. Kim, G. Amy, and J. Drewes, Water Environment-Membrane Technology (WEMT) Conference, Ref#704, Seoul, Korea, June 7-10, 2004.

 

9. “Identification of Low Pressure Membrane Fouling Mechanisms by Application of fouling Models to Drinking Water Sources”, N. Lee, G. Amy and J. Pellegrino, presented at AWWA Membrane Technology Conference and published in Conference Proceedings, 2005.

 

10. “Rejection of trace organic compounds by reverse osmosis and Nanofiltration membranes”, T. Kim, G. Amy, and J. Drewes, Membrane Technology Conference and Expolsition, Ref. Number Tue. 11-3, Phoenix, AZ, March 6-9, 2005.

 

11. “Removal of Micropollutants by NF/RO Membranes”, G. Amy, T. Kim, J. Yoon, ,C. Bellona, J. Drewes, J. Pellegrino and T. Heberer, 3^rd IWA Leading-Edge Conference and Exhibition on Water and Wastewater Treatment Technologies (LET), Ref no. DW1-1, Sapporo, Japan, June 6-8, 2005.

 

12. “Use of Capacitive Microsensors to Study the Concentration Polarization Boundary Layer in a Flat-Sheet NF Membrane Module,”  Zh.-X Zhang, V.M. Bright, and A.R. Greenberg, North American Membrane Society Annual Meeting, Jackson Hole, WY, May 2003.

 

13. “Pervaporation of Aqueous Organic Mixtures Through Ge-ZSM-5 Zeolite Membranes”, “T.C. Bowen, S. Li, V.A. Tuan, J.L. Falconer and R.D. Noble, North American Membrane Society Annual Meeting, Long Beach, CA, May 11-15, 2002.

 

14. “Synthesis and Characterization of B-ZSM-5 Zeolite Membranes on Monolith Supports”, T.C. Bowen, H. Kalipcilar, J.L. Falconer and R.D. Noble, “North American Membrane Society Annual Meeting, May 11-15, 2002, Long Beach, CA. 

 

15. “Pervaporation of Aqueous Organic Mixtures Through Ge-ZSM-5 Zeolite Membranes”, T.C. Bowen, V.A. Tuan, J.L. Falconer, and R.D. Noble, ICOM, Toulouse, France, July 7-12, 2002.

 

16. “Driving Force for Pervaporation Through Zeolite Membranes”, T.C. Bowen, S. Li, J.L. Falconer and R.D. Noble, Gordon Research Conference on Membranes:  Materials and Processes, New London, N.H., August  4-9, 2002.

 

17. “Pervaporation of Aqueous Organic Mixtures Through Ge-ZSM-5 Zeolite Membranes”, T.C. Bowen, V.A. Tuan, J.L. Falconer, and R.D. Noble, Materials Research Society Meeting, Boston, December 2-6, 2002. 

 

18. “Exploring plasma modification of porous materials: From molecules to thin films,” M. L. Steen and E. R. Fisher, American Chemical Society National Meeting, Symposium on Membrane Science; San Diego, CA: April, 1-5, 2001 (student presentation).

 

19. “Studies on Transport Mechanisms in Liquid Crystal Nanocomposite Membranes,” Y. Wu, A. Jain, and R. Govind, AIChE Meeting, San Francisco, CA, November 2003.

 

20. “Membrane Fouling and Cleaning The Need for Effective Measurement,” A.R. Greenberg, University of Maine, Orono, April 2001. Invited lecture.

 

21. “Real-time Measurement of Fouling and Cleaning of Membrane Modules,” Z. Zhang, G. Chai, A.R. Greenberg, and W.B. Krantz, Annual Meeting of the North American Membrane Society, Lexington, May 2001.

 

22. “Study of the Thermally Induced Phase Separation (TIPS),” D. Li, A.R. Greenberg, R.L. Sani, and W.B. Krantz, Annual Meeting of the North American Membrane Society, Lexington, May 2001. 

 

23. “Polyamide RO Membrane Barrier Layers: Changes in the Mechanical and Water Transport Properties Upon Chlorination,” N.P. Soice, A.R. Greenberg, W.B. Krantz and A.D. Norman, Annual Meeting of the North American Membrane Society, Lexington, May 2001.

 

24. “Synthesis and Characterization of Network Polyamide Thin Films,” I.J. Roh, S.Y. Park, J. Kim, and A.R. Greenberg, Annual Meeting of the North American Membrane Society, Lexington, May 2001.

 

25. “Boundary Condition Effects On Polymeric Membrane Formation Via Evaporative Casting,” D.J. Hellman, A.R. Greenberg, and W.B. Krantz, Annual Meeting of the North American Membrane Society, Lexington, May 2001.

 

26. “Membrane Applied Science and Technology Center”, A.R. Greenberg, R.D. Noble and W.B. Krantz, Annual Meeting of the North American Membrane Society, Lexington, May 2001.

 

27. “The MAST Center Research Program: Update on Five Current Research Projects,” A.R. Greenberg,   Millipore Corporation, Boston, June 2001. Invited Presentation.

 

28. “Polymer Thin Film Formation on Low-Gravity Aircraft and on ISS,” V.P. Khare, A.R. Greenberg, W.B. Krantz, H. Lee, P. Todd, and S. Dunn, AIAA Paper 2001-5024, Conference & Exhibit on International Space Station Utilization, Cape Canaveral, FL,   October 15-17, 2001. 

 

29. “Polymeric-Metallic Composite Membranes for High-Temperature Applications,” J.S. Young, S. Jorgensen, B.F. Espinoza, M.W. Weimer, G.D. Jarvinen, C.J. Orme, A.K. Wertsching, E.S. Peterson, V. Khare and A.R. Greenberg, AIChE Annual Meeting, Reno, November 2001. 

 

30. “Real-Time Biofilm Detection with Ultrasonic Frequency Domain Reflectometry (UFDR),” A.C. Fonseca, A.R. Greenberg and M.T. Hernandez, International Specialized Conference on Biofilm Monitoring, Porto, Portugal, March 2002.

 

31. “Carbon Dioxide Separation Using Thermally Optimized membranes, J. Young, V.P. Khare, and A.R. Greenberg, American Geophysical Union Meeting, Washington, D.C., May 2002. 

 

32. “Fabrication of Poly (ethylene chlorotrifluoroethylene) Membranes via Thermally Induced Phase Separation (TIPS)”, I.J. Roh, S. Ramaswamy, A.R. Greenberg and W.B. Krantz, North American Membrane Society Annual Meeting, Los Angeles, May 2002. 

 

33. “Elevated Temperature Compaction and Transport Behavior of Cellulose Acetate Dense Films,”  V.P. Khare and A.R. Greenberg, North American Membrane Society Annual Meeting, Los Angeles, May 2002. 

 

34. “Macrovoid Defect Growth During Evaporative Casting of Polymeric Membranes,” A.R. Greenberg, V.P. Khare, J. Zartman, W.B. Krantz and P. Todd, NASA Microgravity Materials Science Conference, Huntsville, AL, June 2002. 

 

35. “Novel Ultrasonic Technique for Defect Detection in Polymeric Membranes”, S. Ramaswamy, A.R. Greenberg, M. Peterson and R.A. Peterson, North American Membrane Society Annual Meeting, Los Angeles, May 2002. 

 

36. “Macrovoid Formation During Polymer Membrane Casting, A.R. Greenberg, V. Khare, W.B. Kra