Publications:
1. “A Model of Dynamic Scattering by Microemulsions,” E. W. Kaler and S. Prager, J. Colloid Interface Sci. 86,
359 (1982).
2. “Alcohol Effects on Transitions in Liquid Crystalline Dispersions,” P. K. Kilpatrick, F. D. Blum, H. T. Davis,
A. H. Falls, E. W. Kaler, W. G. Miller, J. E. Puig, L. E. Scriven, Y. Talmon and N. A. Woodbury in
Microemulsions (I. D. Robb, ed.), Plenum Press, New York, 1982 (p. 143).
3. “Characterization and Aging of Aqueous Vesicular Dispersions of Sodium 4-(1'-heptyl-nonyl)
Benzenesulfonate,” E. W. Kaler, A. H. Falls, H. T. Davis, L. E. Scriven and W. G. Miller, J. Colloid Interface
Sci. 90, 424 (1982).
4. “Liquid Crystals in a Fused Salt: ß, ?-Distearoyl Phosphotidylcholine in Ethyl-ammonium Nitrate,” D. F.
Evans, E. W. Kaler and W. J. Benton, J. Phys. Chem. 87, 5673 (1983).
5. “Towards Understanding Microemulsion Microstructure: A Small Angle X-ray Scattering Study,” E. W.
Kaler, K. E. Bennett, H. T. Davis and L. E. Scriven, J. Chem. Phys. 79, 5673 (1983).
6. “Towards Understanding Microemulsion Microstructure. II,” E. W. Kaler, H. T. Davis and L. E. Scriven, J.
Chem. Phys. 79, 5685 (1983).
7. “Position-Sensitive Detectors for Small-Angle Scattering,” E. W. Kaler, Trans. Amer. Crystallogr. Assoc. 19,
47 (1983).
8. “Fluid Microstructures of Sodium 4-(1'-heptylnonyl) Benzenesulfonate Mixtures,” W. G. Miller, F. D. Blum,
H. T. Davis, E. I. Franses, E. W. Kaler, P. K. Kilpatrick, K. E. Nietering, J. E. Puig and L. E. Scriven, in
“Surfactants in Solution,” (K. L. Mittal and B. Lindman, eds.), Plenum Press, New York, 1984 (Vol. 1, p.
175).
9. “Mixed Micelles of Sodium Dodecyl Sulfate and Sodium 4-(1'-heptylnonyl) Benzene-sulfonate,” E. W. Kaler,
J. E. Puig and W. G. Miller, J. Phys. Chem. 88, 2887 (1984).
10. “Use of a One-Dimensional Position Sensitive Detector with a Kratky Camera,” E. W. Kaler, J. Appl. Cryst.
17, 370 (1984).
11. “The Structure of Sodium Dodecyl Sulfate Micelles in Solutions of H2O and D2O,” N. Y. J. Chang and E. W.
Kaler, J. Phys. Chem. 89, 2996 (1985).
12. “Quasielastic Light Scattering Study of Five Component Microemulsions,” N. Y. J. Chang and E. W. Kaler,
Langmuir 2, 184 (1986).
13. “On the Structure of Five Component Microemulsions,” N. J. Chang, J. F. Billman, R. A. Licklider and E. W.
Kaler, in “Micellar Solutions and Microemulsions,” (S. - H. Chen and R. Rajagopalan eds.), Springer - Verlag,
New York, 1990 (p. 269).
14. “Ionic Permeability of Synthetic Vesicles,” R. T. Hamilton and E. W. Kaler, J. Colloid and Interface Sci. 116,
248 (1987).
15. “Size Disproportionation in Vesicular Dispersions,” N. W. Johnson and E. W. Kaler, J. Colloid and Interface
Sci. 116, 444 (1987).
16. “Structural Study of One-phase Microemulsions,” D. S. Rushforth, M. Sanchez-Rubio, L. M. Santos-Vidals,
K. R. Wormuth, E. W. Kaler, R. Cuevas, and J. E. Puig, J. Phys. Chem. 90, 6668 (1986).
17. “Amines as Microemulsion Cosurfactants,” K. R. Wormuth and E. W. Kaler, J. Phys. Chem. 91, 611 (1987).
18. “Partial Characterization of a Nonmicellar System of Cholesterol Solubilization in Human Bile,” S. P. Lee, H.
Z. Park, H. Madani and E. W. Kaler, Am. J. Physiology 252, G374 (1987).
19. “Statics and Dynamics of Concentration Fluctuations in Nonionic Micellar Solutions,” J. P. Wilcoxon and E.
W. Kaler, J. Chem. Phys. 86, 4684 (1987).
20. “Scattering Probes of Microemulsion Structure,” in “Physics of Amphiphilic Layers” (J. Meunier, D.
Langevin and N. Boccara, eds.), Springer - Verlag, Berlin, p. 364 (1987).
21. “Small Angle Scattering of Bicontinuous Structures in Microemulsions,” C. G. Vonk, J. F. Billman and E. W.
Kaler, J. Chem. Phys. 88, 3970 (1988).
22. “Small-Angle Scattering As a Tool for the Study of Microemulsion Structure,” E. W. Kaler, Makromol.
Chem., Macromol. Symp. 15, 323 (1988).
23. “Non-equilibrium Structure During Phase Separation,” J. P. Wilcoxon, D. W. Schaefer and E. W. Kaler, Phys.
Rev. Lett. 60, 333 (1988).
24. “Measurement of Polydisperse Colloidal Suspensions with Quasielastic Light Scattering,” H. Madani and E.
W. Kaler, Particle and Particle Systems Characterization 8, 259 (1991).
25. “Properties and Structures of Three and Four Component Microemulsions,” J. E. Puig, I. Rodriguez-Siordia,
L. I. Rangel-Zamudio, J. F. Billman and E. W. Kaler, Langmuir 4, 806 (1988).
26. “Modelling Small Angle Scattering from Colloidal Suspensions,” E. W. Kaler, J. Appl. Cryst. 21, 729 (1988).
27. “Lamellar Phases in Mixtures of Low Molecular Weight Alkanols and Cetyltrimethyl-ammonium Bromide
(CTAB),” K. A. Murthy and E. W. Kaler, Coll. Polym. Sci. 267, 330 (1989).
28. “Effects of Isotopic Substitution on the Critical Behavior of Aqueous Solutions of n-dodecylhexaoxy-ethylene
glycol monoether (C12E6),” J. P. Wilcoxon, D. W. Schaefer and E. W. Kaler, J. Chem. Phys. 90, 1909 (1989).
29. “Microemulsifying Polar Oils,” K. R. Wormuth and E. W. Kaler, J. Phys. Chem. 93, 4855 (1989).
30. “Structure and Phase Behavior in Five-Component Microemulsions,” J. F. Billman and E. W. Kaler, Langmuir
6, 611 (1990).
31. “On the Solubilization of Dyes in Microemulsions,” K. R. Wormuth, L. A. Cadwell and E. W. Kaler,
Langmuir 6, 1035 (1990).
32. “Aging and Stability of Vesicular Dispersions,” H. Madani and E. W. Kaler, Langmuir 6, 125 (1990).
33. “Alkali Metal Ion Transport through Thin Bilayers,” R. T. Hamilton and E. W. Kaler, J. Phys. Chem. 94, 2560
(1990).
34. “Facilitated Ion Transport through Thin Bilayers,” R. T. Hamilton and E. W. Kaler, J. Memb. Sci. 54, 259
(1990).
35. “Interconversions of Lipid Aggregates in Rat and Model Bile,” T. E. Little, S. P. Lee, H. Madani, K. Chinn
and E. W. Kaler, Am. J. Physiology 260 G70-79 (1991).
36. “Spontaneous Vesicle Formation in Aqueous Mixtures of Single-Tailed Surfactants,” E. W. Kaler, A. K.
Murthy, B. E. Rodriguez, and J. Zasadzinski, Science 245, 1371 (1989).
37. “Phase Behavior and Microstructure of Nonaqueous Microemulsions,” A. Martino and E. W. Kaler, J. Phys.
Chem. 94, 1627 (1990).
38. “Styrene Polymerization in Three-Component Microemulsions,” V. H. Pérez-Luna, J. E. Puig, V. M. Castaño,
B. E. Rodriguez, A. K. Murthy and E. W. Kaler, Langmuir 6, 1040 (1990).
39. “Microemulsion Copolmerization of Styrene and Acrylic Acid,” J. E. Puig, S. Corona-Galvan, A. Maldonado,
P. C. Schulz, B. E. Rodriguez and E. W. Kaler, J. Colloid and Interface Sci. 137, 308 (1990).
40. “A Small-Angle Neutron Scattering Study of Intermicellar Interactions in Microemulsions of AOT (Sodium
bis(2-ethylhexyl) Sulfosuccinate), Water, and Near-critical Propane,” E. W. Kaler, J. F. Billman, J. L. Fulton,
and R. D. Smith, J. Phys. Chem. 95, 458 (1991).
41. “Measurements of Interdroplet Attractions and the Onset of Percolation in Water-in-Oil Microemulsions,” R.
T. Hamilton, J. F. Billman and E. W. Kaler, Langmuir 6, 1696 (1990).
42. “A Four Component Lattice Model for Nonaqueous Microemulsions made with Nonionic Surfactants,” A.
Martino, M. Schick and E. W. Kaler, J. Chem. Phys. 93, 8228 (1990).
43. “Structure and Phase Behavior in Four-Component Nonionic Microemulsions” J. F. Billman and E. W. Kaler,
Langmuir 7, 1609 (1991).
44. “Spontaneous Vesicles from Aqueous Solutions of Aerosol OT and Choline Chloride Compounds,” A. K.
Murthy, E. W. Kaler and J. A. N. Zasadzinski, J. Colloid and Interface Sci. 145, 598 (1991).
45. “Phase Behavior of Aqueous Mixtures of n-Dodecylhexaoxyethylene Glycol Monoether (C12E6) and Sodium
Alkyl Sulfonates,” C. B. Douglas and E. W. Kaler, Langmuir 7, 1097 (1991).
46. “Lipid Vesicle Fusion Induced by Phospholipase C Activity in Model Bile,” T. E. Little, H. Madani, S. P. Lee
and E. W. Kaler, J. Lipid Res. 34, 211 (1993).
47. “Reversible Gelation of Microgels Due to Colloidal Crystallization,” B. E. Rodriguez, M. S. Wolfe and E. W.
Kaler, Polym. Preprints 32, 465 (1991).
48. “Comparison of Oil-Soluble and Water-Soluble Initiation of Styrene Polymerization in a Three-Component
Microemulsion,” J. E. Puig, V. H. Pérez-Luna, M. Pérez-González, E. R. Macías, B. E. Rodríguez and E. W.
Kaler, Coll. Polym. Sci. 271 114 (1993).
49. “A Hot Melt Ink for Thermal Jet Printing,” A. H. Sporer, E. W. Kaler and A. K. Murthy, J. Imaging Tech. 36,
176 (1992).
50. “Phase Behavior and Structures of Mixtures of Anionic and Cationic Surfactants,” E. W. Kaler, K. L.
Herrington, A. K. Murthy, and J. A. N. Zasadzinski, J. Phys. Chem. 96, 6698 (1992).
51. “Phase Behavior of Aqueous Mixtures of Anionic and Cationic Surfactants Along a Dilution Path,” E. W.
Kaler, K. L. Herrington, D. D. Miller, and J. A. N. Zasadzinski, in “Structure and Dynamics of
Supramolecular Aggregates,” (S. -H. Chen, J. S. Huang, and P. Tartaglia, eds.), Kluwer Academic Publishers,
Dordrecht, The Netherlands, p. 571 (1992).
52. “A Continuous Dilution Method for Phase Diagram Determination,” H. Hartounian, J. A. Koetitz, E. W. Kaler
and S. I. Sandler, AIChE Journal 40, 1574 (1994).
53. “Effect of Temperature on the Phase Equilibrium of Aqueous Two-Phase Polymer Systems,” H. Hartounian,
E. Floeter, E. W. Kaler and S. I. Sandler, AIChE Journal 39, 1976 (1993).
54. “Binary Mixtures of Monodisperse Latex Dispersions. 1. Equilibrium Structure,” B. E. Rodriguez and E. W.
Kaler, Langmuir 8, 2376 (1992).
55. “Binary Mixtures of Monodisperse Latex Dispersions. 2. Viscosity,” B. E. Rodriguez, E. W. Kaler and M. S.
Wolfe, Langmuir 8, 2382 (1992).
56. “A Scattering Study of Mixed Micelles of n-Dodecylhexaoxyethylene Glycol Monoether (C12E6) and Sodium
Dodecyl Sulfonate (C12SO3Na) in D2O,” C. B. Douglas and E. W. Kaler, Langmuir 10, 1075 (1994).
57. “The Stability of Lamellar Phases in Water, Propylene Glycol, and Surfactant Mixtures,” A. Martino and E.
W. Kaler, Colloids and Surfaces 99, 91 (1995).
58. “Spontaneous Vesicles and Other Solution Structures in Catanionic Mixtures,” E. W. Kaler, K. L. Herrington
and J. A. N. Zasadzinski, in “Complex Fluids” (E. B. Sirota, D. Weitz, T. A. Witten, and J. Israelachvili, eds.),
MRS Symposium Proceedings, Vol. 248, p. 3 (1992).
59. “Polymerization of Tetrahydrofurfuryl Methacrylate in Three-Component Anionic Microemulsions,” A. P.
Full, J. E. Puig, L. U. Gron, E. W. Kaler, J. R. Minter, T. H. Mourey and J. Texter, Macromolecules 25, 5157
(1992).
60. “A Calcium Binding Protein in Bile and Gallstones,” M. F. Kestell, J. Sekijima, S. P. Lee, H. Z. Park, M. A.
Long and E. W. Kaler, Hepatology 16, 1315 (1992).
61. “Reversible Solidification of Hard Sphere-Like Dispersions Due to Colloidal Crystallization,” B. E.
Rodriguez, M. S. Wolfe and E. W. Kaler, Langmuir 9, 12 (1993).
62. “Polymerization of Methylmethacrylate in Three-Component Cationic Microemulsions,” L. A. Rodriguez-
Guadarrama, E. Mendizabal, J. E. Puig and E. W. Kaler, J. Appl. Poly. Sci. 48, 775 (1993).
63. “Emulsion Copolymerization of Styrene and Sodium Acrylate,” with S. Nuño-Donlucus, A. I. Rhoton, S.
Corona-Galvan, J. E. Puig and E. W. Kaler, Polymer Bulletin 30, 207 (1993).
64. “Cholesterol Carriers in Human Bile: are “Lamellae” Involved?,” D. E. Cohen, E. W. Kaler and M. C. Carey,
Hepatology 18, 1522 (1993).
65. “Phospholipase-C Induced Aggregation and Fusion of Cholesterol-Lecithin Small Unilamellar Vesicles,” A.
Luk, E. W. Kaler and S. P. Lee, Biochemistry 32, 6965 (1993).
66. “Colloidal Interactions in Water/ 2-Butoxyethanol Solvents,” S. R. Kline and E. W. Kaler, Langmuir 10, 412
(1994).
67. “Bilayer Phases in Aqueous Mixtures of Dodecylpentaoxyethylene Glycol Monoether (C12E5) and Sodium
Decyl Sulfonate (C10SO3Na),” C. B. Douglas and E. W. Kaler, J. Chem. Soc., Faraday Trans. 90, 471 (1994).
68. “Basic Surfactant Concepts,” Chapter 1 of “Detergents and Cleaners, A Handbook For Formulators,” K. R.
Lange, Ed., p. 1, Carl Hanser Verlag (1994).
69. “Particle Nucleation During Microemulsion Polymerization of Methyl Methacrylate,” F. Bléger, A. K.
Murthy, F. Pla and E. W. Kaler, Macromolecules 27, 2559 (1994).
70. “Phase Behavior of Aqueous Mixtures of Dodecyltrimethylammonium Bromide (DTAB) and Sodium Dodecyl
Sulfate (SDS),” K. L. Herrington, E. W. Kaler, D. D. Miller, J. A. Zasadzinski and S. Chiruvolu, J. Phys.
Chem. 97, 13792 (1993).
71. “Characterization of Lecithin-Taurodeoxycholate Mixed Micelles Using Small Angle Neutron Scattering and
Static and Dynamic Light Scattering,” M. A. Long, E. W. Kaler, S. P. Lee, and G. D. Wignall, J. Phys. Chem.
98, 4402 (1994).
72. “Microemulsifying Fluorinated Oils,” K. -V. Schubert and E. W. Kaler, Colloids and Surfaces 84, 97 (1994).
73. “Structural Characterization of the Micelle-Vesicle Transition in Lecithin-Bile Salt Solutions,” M. A. Long, E.
W. Kaler and S. P. Lee, Biophysical J. 67, 1733 (1994).
74. “Aqueous Two-Phase Systems. I. Salt Partitioning,” H. Hartounian, S. I. Sandler and E. W. Kaler, I. E. C.
Fundamentals 33, 2288 (1994).
75. “Aqueous Two-Phase Systems. II. Protein Partitioning,” H. Hartounian, E. W. Kaler and S. I. Sandler, I. E. C.
Fundamentals 33, 2294 (1994).
76. “Protein Lipid Interaction in Bile: Effects of Biliary Proteins on the Stability of Cholesterol-Lecithin
Vesicles,” A. S. Luk, E. W. Kaler and S. P. Lee, Biochem. Biophys. Acta 1390, 282 (1998).
77. “Small-Angle Scattering from Complex Fluids,” in “Modern Aspects of Small-Angle Scattering,” (H.
Brumberger, ed.), NATO ASI Series Vol. 451, Kluwer Academic Publishers, Dordrecht, The Netherlands,
Chapter 13, p. 329 (1995).
78. “Structure and Dynamics of Polymerizable Microemulsions,” A. P. Full and E. W. Kaler, Langmuir 10, 2929
(1994).
79. “Structure of Sheared Cetyltrimethylammonium Tosylate-Sodium Dodecylbenzene-sulfonate Rodlike Micellar
Solutions,” R. D. Koehler and E. W. Kaler, in “Rheology of Surfactant Solutions,” (C. A. Herb and R.
Prud'homme, eds.), ACS Symposium Series #578, p. 120 (1994).
80. “Microemulsion Polymerization of Styrene: The Effect of Salt and Structure,” A. P. Full, E. W. Kaler, J.
Arellano and J. E. Puig, Macromolecules 29, 2764 (1996).
81. “Small Angle Neutron Scattering Near Lifshitz Lines: Transition from Weakly Structured Mixtures to
Microemulsions,” K. -V. Schubert, R. Strey, S. R. Kline and E. W. Kaler, J. Chem. Phys. 101, 5343 (1994).
82. “Phase Behavior and Microstructure of Nonaqueous Microemulsions. 2,” A. Martino and E. W. Kaler,
Langmuir 11, 779 (1995).
83. “The Lifshitz Line in Binary Systems: Structures in Water/ C4E1 Mixtures,” R. D. Koehler, K. -V. Schubert,
R. Strey and E. W. Kaler, J. Chem. Phys. 101, 10843 (1994).
84. “Mixed Micelles of Dodecyltrimethylammonium Bromide and Didodecyldimethyl-ammonium Bromide,” K.
M. Lusvardi, A. P. Full and E. W. Kaler, Langmuir 11, 487 (1995).
85. “Effect of Ionic Strength and Ionic Species on Partitioning Behavior of Hydrophobic and Hydrophilic
Polystyrene Latex Beads in Aqueous Two-Phase Polymer Systems,” B. C. Tripp, E. W. Kaler, S. I. Sandler,
and A. Kopatsis, Colloids and Surfaces B: Biointerfaces 6, 151 (1996).
86. “Microstructure in D2O/n-Hexaethylene Glycol Monododecyl Ether (C12E6)/CO2 Mixtures Determined by
Small Angle Neutron Scattering,” R. G. Zielinski, E. W. Kaler and M. E. Paulaitis, J. Phys. Chem. 99, 10354
(1995).
87. “Measurement of Forces between Spontaneous Vesicle-Forming Bilayers,” S. Chiruvolu, J. N. Israelachvili,
E. Naranjo, Z. Xu, J. A. Zasadzinski, E. W. Kaler and K. L. Herrington, Langmuir 11, 4256 (1995).
88. “Electrostatic Effects on Phase Behavior of Aqueous Cetyltrimethylammonium Bromide (CTAB) and Sodium
Octylsulphate (SOS) Mixtures with Added Sodium Bromide (NaBr),” L. L. Brasher, K. L. Herrington and E.
W. Kaler, Langmuir 11, 4267 (1995).
89. “Phase Behavior and Microstructure of Polymerizable Microemulsions,” K. M. Lusvardi, K.-V. Schubert and
E. W. Kaler, Langmuir 11, 4728 (1995).
90. “Aggregation of Colloidal Silica by n-Alkyl Sulfates,” S. R. Kline and E. W. Kaler, Langmuir 12, 2402
(1996).
91. “An Optimization Regularization Method for Determination of Partial Structure Factors from Small Angle
Scattering Experiments,” S. R. Kline and E. W. Kaler, J. Appl. Cryst. 29, 427 (1996).
92. “A Study of the Microstructure of a Four-Component Nonionic Microemulsion by cryo-TEM, NMR, SAXS
and SANS,” O. Regev, S. Ezrahi, A. Aserin, N. Garti, E. Wachtel, E. W. Kaler, A. Khan, and Y. Talmon,
Langmuir 12, 668 (1996).
93. “Phase Behavior of Aqueous Mixtures of Cetyltrimethylammonium Bromide (CTAB) and Sodium Octyl
Sulfate (SOS),” M. T. Yatcilla, K. L. Herrington, L. L. Brasher, E. W. Kaler, S. Chiruvolu, and J. A.
Zasadzinski, J. Phys. Chem. 100, 5874 (1996).
94. “Polymerization in Nonaqueous Microemulsions,” K. -V. Schubert, K. M. Lusvardi and E. W. Kaler, Coll.
and Poly. Sci. 274, 875 (1996).
95. “Small-Angle Neutron Scattering of D2O – C12E5 Mixtures and Microemulsions with n-Octane: Direct
Analysis by Fourier Transformation,” R. Strey, O. Glatter, K. -V. Schubert and E. W. Kaler, J. Chem. Phys.
105, 1175 (1996).
96. “Formation of Isopycnic Phases in H2O/CO2/Ethoxylated Alcohol Surfactant Mixtures,” R. G. Zielinski, M. E.
Paulaitis and E. W. Kaler, J. Phys. Chem. 100, 9465 (1996).
97. “Microemulsions: A Medium for Polymerization Reactions,” K. M. Lusvardi, K. -V. Schubert and E. W.
Kaler, Ber. Bunsenges. Phys. Chem. 100, 373 (1996).
98. “Nonionic Microemulsions,” K. -V. Schubert and E. W. Kaler, Ber. Bunsenges. Phys. Chem. 100, 190 (1996).
99. “A Sapphire Cell for Neutron Scattering at Elevated Pressures,” R. G. Zielinski, M. E. Paulaitis and E. W.
Kaler, Rev. Sci. Instrum 67, 2612 (1996).
100. “Interactions in Binary Mixtures: Partial Structure Factors in Mixtures of Sodium Dodecyl Sulfate Micelles
and Colloidal Silica,” S. R. Kline and E. W. Kaler, J. Chem. Phys. 105, 3813 (1996).
101. “Colloidal Phase Transitions in Aqueous Nonionic Surfactant Solutions,” R. D. Koehler and E. W. Kaler,
Langmuir 13, 2463 (1997).
102. “Thermodynamic and Theoretical Aspects,” E. W. Kaler and R. Aveyard, (Editorial Overview), Cur. Opin.
Coll. Interface Sci, 1, 367 (1996).
103. “Small Angle Scattering Applied to Microemulsions,” with O. Glatter, R. Strey, K. -V. Schubert and E. W.
Kaler, Ber. Bunsenges. Phys. Chem. 100, 323 (1996).
104. “A Small-Angle Neutron Scattering (SANS) Contrast Variation Investigation of Aggregate Composition in
Catanionic Surfactant Mixtures,” L. L. Brasher and E. W. Kaler, Langmuir 12, 6270 (1996).
105. “Phase Behavior of Colloids in Binary Liquid Mixtures,” Y. Jayalakshmi and E. W. Kaler, Physical Review
Letters 78, 1379 (1997).
106. “APF/CBP, the Small, Amphipathic, Anionic Protein(s) in Bile and Gallstones, Consists of Lipid-Binding and
Calcium-Binding Forms,” H. Lafont, N. Domingo, A. Groen, E. W. Kaler, S. P. Lee, R. Koehler, J. D. Ostrow
and A. Veis, Hepatology 25, 1054 (1997).
107. “Transition from Micelles to Vesicles in Aqueous Mixtures of Anionic and Cationic Surfactants,” O.
Soderman, K. L. Herrington, E. W. Kaler and D. D. Miller, Langmuir 13, 5531 (1997).
108. “Phase Behavior of Microemulsions Made with n-Alkyl Monoglucosides and n-Alkyl Polyglycol Ethers,” L.
D. Ryan, K. -V. Schubert and E. W. Kaler, Langmuir 13, 1510 (1997).
109. “Structural Mechanisms of Bile Salt-Induced Growth of Small Unilamellar Cholesterol-Lecithin Vesicles,” A.
S. Luk, E. W. Kaler and S. P. Lee, Biochemistry 36, 5633 (1997).
110. “Kinetics and Mechanism of Microemulsion Polymerization of Hexyl Methacrylate,” J. D. Morgan, K. M.
Lusvardi and E. W. Kaler, Macromolecules 30, 1897 (1997).
111. “Polymerization of Equilibrium Vesicles,” J. D. Morgan, C. A. Johnson and E. W. Kaler, Langmuir 13, 6447
(1997).
112. “The Role of Oxygenated Oils in n-Alkyl ß-D-Monoglucoside Microemulsion Phase Behavior,” L. D. Ryan
and E. W. Kaler, Langmuir 13, 5222 (1997).
113. “A Small-Angle Neutron Scattering Study of Water in Carbon Dioxide Microemulsions,” R. G. Zielinski, S.
R. Kline, E. W. Kaler and N. Rosov, Langmuir 13, 3934 (1997).
114. “Rod-like Micellar Solutions Which Suspend Agricultural Active Particles in the Delivery System,” R. D.
Koehler, E. W. Kaler and J. Green, Res. Discl. 394, 109 (1997).
115. “Thermodynamic and Theoretical Aspects,” R. Aveyard and E. W. Kaler, (Editorial Overview), Cur. Opin.
Coll. Interface Sci, 2, 279 (1997).
116. “Interactions in Colloidal Mixtures: Partial Structure Factors in Mixtures of Colloidal Silica and an Anionic
Oil-in-Water Microemulsion,” S. R. Kline and E. W. Kaler, J. Colloid and Interface Sci. 203, 392 (1998).
117. “Direct Analysis of SANS and SAXS Measurements of Catanionic Surfactant Mixtures by Fourier
Transformation,” D. J. Iampietro, L. L. Brasher, E. W. Kaler, A. Stradner and O. Glatter, J. Phys. Chem. 102,
3105 (1998).
118. “Particle Size and Monomer Partitioning in Microemulsion Polymerization 1. Calculation of the Particle Size
Distribution,” J. D. Morgan and E. W. Kaler, Macromolecules 31, 3197 (1998).
119. “Particle Size and Monomer Partitioning in Microemulsion Polymerization 2. Online Small Angle Neutron
Scattering Studies,” C. C. Co and E. W. Kaler, Macromolecules 31, 3203 (1998).
120. “Protein Interactions in Solution Characterized by Light and Neutron Scattering: Comparison of Lysozyme
and Chymotrypsinogen,” O. D. Velev, E. W. Kaler and A. M. Lenhoff, Biophysical Journal 75, 2682 (1998).
121. “Hydration and Conformational Equilibria of Simple Hydrophobic and Amphiphilic Solutes,” H. S.
Ashbaugh, E. W. Kaler and M. E. Paulaitis, Biophysical Journal 75, 755 (1998).
122. “The Effect of Anomeric Head Groups, Surfactant Hydrophilicity, and Electrolytes on n-Alkyl Monoglucoside
Microemulsions,” L. D. Ryan and E. W. Kaler, J. Colloid and Interface Sci. 210, 251 (1999).
123. “Effect of Alkyl Sulfates on the Phase Behavior and Microstructure of Alkyl Polyglucoside Microemulsions,”
L. D. Ryan and E. W. Kaler, J. Phys. Chem. B 102, 7549 (1998).
124. “A Fluorescence Energy Transfer Study of Lecithin-Cholesterol Vesicles in the Presence of Phospholipase C,”
S. P. Wrenn, E. W. Kaler, and S. P. Lee, J. Lipid Research 40, 1483 (1999).
125. “Why is the Osmotic Second Virial Coefficient Related to Protein Crystallization,” B. L. Neal, D. Asthagiri,
O. D. Velev, A. M. Lenhoff and E. W. Kaler, J. Cryst. Growth 196, 377 (1999).
126. “Microstructure Properties of Alkyl Polyglucoside Microemulsions,” L. D. Ryan and E. W. Kaler, Langmuir
15, 92 (1999).
127. “Colloidal Dispersions in Lyotropic Lamellar Phases,” G. Salamat and E. W. Kaler, Langmuir 15, 5414
(1999).
128. “In Situ Assembly of Colloidal Particles into Miniaturized Biosensors,” O. D. Velev and E. W. Kaler,
Langmuir 15, 3693 (1999).
129. “Alkyl Polyglucoside Microemulsion Phase Behavior,” L. D. Ryan and E. W. Kaler, Colloids and Surfaces
176, 69 (2001).
130. “Phase Behavior and Microemulsion Formation in Compressible Perfluorinated Monomer Oil and Water
Mixtures,” A. N. Dobreva-Veleva, E. W. Kaler, K.-V. Schubert, A. E. Feiring, and W. B. Farnham, Langmuir
15, 4480 (1999).
131. “Small-Angle Scattering of Interacting Particles. III. D2O- C12E5 Mixtures and Micro-emulsions with
n-Octane,” J. Brunner-Popela, R. Mittelbach, R. Strey, K. -V. Schubert, E. W. Kaler and O. Glatter, J. Chem.
Phys. 110, 10623 (1999).
132. “Phase Behavior and Microstructure of Aqueous Mixtures of Cetyltrimethylammonium Bromide and Sodium
Perfluorohexanoate,” D. J. Iampietro and E. W. Kaler, Langmuir 15, 8590 (1999).
133. “Conformational Equilibria of Alkanes in Aqueous Solutions: Relationship to Water Structure Near
Hydrophobic Solutes,” H. S. Ashbaugh, S. Garde, G. Hummer, E. W. Kaler and M. E. Paulaitis, Biophys. J.
77, 645 (1999).
134. “A Class of Porous Metallic Nanostructures,” O. D. Velev, P. M. Tessier, A. M. Lenhoff and E. W. Kaler,
Nature 401, 548 (1999).
135. “The Origins of Stability of Spontaneous Vesicles,” H. T. Jung, B. Coldren, J. A. Zasadzinski, D. J. Iampietro
and E. W. Kaler, Proc. Natl. Acad. Sci. 98, 1353 (2001).
136. “Undulations in Salt-Free Charged Lamellar Phases Detected by Small-Angle Neutron Scattering and Neutron
Reflectivity,” G. Salamat, R. de Vries, E. W. Kaler, S. Satija and L. Sung, Langmuir 16, 102 (2000).
137. “Photochemical Micromachining of Lysozyme Crystals,” O. D. Velev, E. W. Kaler and A. M. Lenhoff,
Advanced Materials 11, 1345 (1999).
138. “A ‘Universal’ Surface Area Correlation for Molecular Hydrophobic Phenomena,” H. S. Ashbaugh, E. W.
Kaler and M. E. Paulaitis, J. Am. Chem. Soc. 121, 9243 (1999).
139. “A Class of Microstructured Particles Through Colloidal Crystallization,” O. D. Velev, A. M. Lenhoff and E.
W. Kaler, Science 287, 2240 (2000).
140. “Free Radical Polymerization in Microemulsions,” C. Co, R. de Vries and E. W. Kaler, Chapter in “Reactions
and Synthesis in Surfactant Systems” (J. Texter, ed.), p. 455 (2001).
141. “Structured Porous Materials via Colloidal Crystal Templating: From Inorganic Oxides to Metals,” O. D.
Velev and E. W. Kaler, Advanced Materials 12, 7, 531 (2000).
142. “Surfactant Diffusion into Lysozyme Crystal Matrices Investigated by Quantitative Fluorescence
Microscopy,” O. D. Velev, E. W. Kaler and A. M. Lenhoff, J. Phys. Chem. B 104, 9267 (2000).
143. “Microemulsion Polymerization. 1. Small-Angle Neutron Scattering Study of Monomer Partitioning,” C. C.
Co, R. de Vries and E. W. Kaler, Macromolecules 34, 3224 (2001).
144. “Microemulsion Polymerization. 2. Influence of Monomer Partitioning, Termination, and Diffusion
Limitations on Polymerization Kinetics,” R. de Vries, C. C. Co and E. W. Kaler, Macromolecules 34, 3233
(2001).
145. “A Simple Molecular Model for the Spontaneous Curvature and the Bending Constants of Nonionic Surfactant
Monolayers at the Oil/Water Interface,” V. N. Paunov, S. I. Sandler and E. W. Kaler, Langmuir 16, 8917,
(2000).
146. “Colloidal-Scale Engineering,” E. W. Kaler, Engineering Novel Structures, Proceedings of the Frontiers of
Engineering Conference, NAE Press (1999).
147. “Characterization of Model Bile Using Fluorescence Energy Transfer from Dehydroergosterol to Dansylated
Lecithin,” S. P. Wrenn, M. Gudheti, A. N. Veleva, E. W. Kaler and S. P. Lee, J. Lipid Research 42, 923
(2001).
148. “Templating Hollow Polymeric Spheres from Catanionic Equilibrium Vesicles: Synthesis and
Characterization,” C. A. McKelvey, E. W. Kaler, J. A. Zasadzinski, B. Coldren and H-T. Jung, Langmuir 16,
8285 (2000).
149. “Microstructure and Dynamics of Wormlike Micellar Solutions Formed by Mixing Cationic and Anionic
Surfactants,” R. D. Koehler, S. R. Raghavan and E. W. Kaler, J. Phys. Chem. B 104, 11035 (2000).
150. “Highly Viscoelastic Wormlike Micellar Solutions Formed by Cationic Surfactants with Long Unsaturated
Tails,” S. R. Raghavan and E. W. Kaler, Langmuir 17, 300 (2001).
151. “A Model for Hydration Interactions between Apoferritin Molecules in Solution,” V. N. Paunov, E. W. Kaler,
S. I. Sandler and D. N. Petsev, J. Colloid and Interface Sci. 240, 640 (2001).
152. “Assembly of Gold Nanostructured Films Templated by Colloidal Crystals and Use in Surface-Enhanced
Raman Spectroscopy,” P. M. Tessier, O. D. Velev, A. T. Kalambur, J. F. Rabolt, A. M. Lenhoff and E. W.
Kaler, J. Am. Chem. Soc. 122, 9554 (2000).
153. “Microemulsion Polymerization. 3. Molecular Weight and Particle Size Distributions,” C. C. Co, P. Cotts, S.
Burauer, R. de Vries and E. W. Kaler, Macromolecules 34, 3245 (2001).
154. “Critical Size and Surfactant Coverage of Styrene Miniemulsion Droplets Stabilized by Ionic Surfactants,” V.
N. Paunov, S. I. Sandler and E. W. Kaler, Langmuir 17, 4126 (2001).
155. “Structured Metallic Films for Optical and Spectroscopic Applications via Colloidal Crystal Templating,” P.
M. Tessier, O. D. Velev, A. T. Kalambur, A. M. Lenhoff, J. F. Rabolt and E. W. Kaler, Advanced Materials
13, 396 (2001).
156. “Cholestan-3ß, 5a, 6ß-triol, but not 7-Ketocholesterol, Suppresses Taurocholate-induced Mucin Secretion by
Cultured Dog Gallbladder Epithelial Cells,” T. Yoshida, J. H. Klinkspoor, R. Kuver, S. P. Wrenn, E. W. Kaler
and S. P. Lee, FEBS Letters 478, 113 (2000).
157. “Conformational Equilibria of Polar and Charged Flexible Polymer Chains in Water,” H. S. Ashbaugh, E. W.
Kaler and M. E. Paulaitis, Polymer 43, 559 (2002).
158. “Size and Polydispersity of Polymer Particles obtained by Cryo-TEM, SANS and DLS,” S. Burauer, L.
Belkoura, R. Strey, C. C. Co and E. W. Kaler, Elektronenmikroscopie 21, 20 (2001).
159. “Vesicles” Editorial, E. W. Kaler, Cur. Opin. Coll. Interface Sci. 6, 65 (2001).
160. “Characterization of Nanostructured Hollow Polymer Spheres with Small-Angle Neutron Scattering (SANS),”
C. A. McKelvey and E. W. Kaler, J. Colloid and Interface Sci. 245, 68 (2002).
161. “Effect of Didodecyldimethylammonium Bromide on the Phase Behavior of Nonionic Surfactant-Silicone Oil
Microemulsions,” J. A. Silas, E. W. Kaler and R. M. Hill, Langmuir 17, 4534 (2001).
162. “Cloud-Point Phenomena in Wormlike Micellar Systems Containing Cationic Surfactant and Salt,” S. R.
Raghavan, H. Edlund and E. W. Kaler, Langmuir 18, 1056 (2002).
163. “Effects of Bile Salts on Cholestan-3ß, 5a, 6ß-triol-induced Apoptosis in Dog Gallbladder Epithelial Cells,”
T. Yoshida, J. H. Klinkspoor, R. Kuver, M. Poot, P. S. Rabinovitch, S. P. Wrenn, E. W. Kaler and S. P. Lee,
Biochimica et Biophysica Acta, 1530, 199 (2001).
164. “The Phase Behavior and Microstructure of Efficient Cationic-Nonionic Microemulsions,” J. A. Silas and E.
W. Kaler, J. Colloid and Interface Sci. 243, 248 (2001).
165. “Dielectrophoretic Assembly of Electrically Functional Microwires from Nanoparticle Suspensions,” K. D.
Hermanson, S. O. Lumsdon, J. P. Williams, E. W. Kaler and O. D. Velev, Science 294, 1082 (2001).
166. “Effect of Multiple Scattering on SANS Spectra from Bicontinuous Microemulsions,” J. A. Silas and E. W.
Kaler, J. Colloid and Interface Sci., 257, 291 (2003).
167. “Microstructural Changes in SDS Micelles Induced by Hydrotropic Salt,” P. A. Hassan, S. R. Raghavan and
E. W. Kaler, Langmuir 18, 2543 (2002).
168. “Templating Vesicles, Microemulsions and Lyotropic Mesophases by Organic Polymerization Processes,” H.
Hentze, C. C. Co, C. A. McKelvey and E. W. Kaler, Topics in Current Chemistry 226, 197 (2003).
169. “Wormlike Micelles Formed by Synergistic Self-Assembly in Mixtures of Anionic and Cationic Surfactants,”
S. R. Raghavan, G. Fritz and E. W. Kaler, Langmuir 18, 3797 (2002).
170. “Small Angle Neutron Scattering Study of Sodium Dodecyl Sulfate Micellar Growth Driven by Addition of a
Hydrotropic Salt,” P. A. Hassan, G. Fritz and E. W. Kaler, J. Colloid and Interface Sci, 257, 154 (2003).
171. “Dielectrophoretic Assembly of Oriented and Switchable Two-dimensional Photonic Crystals,” S. O.
Lumsdon, E. W. Kaler, J. P. Williams and O. D. Velev, Appl. Phys. Lett., 82, 949 (2003).
172. “On-line Spectroscopic Characterization of Sodium Cyanide with Nanostructured Gold Surface-Enhanced
Raman Spectroscopy Substrates,” P. M. Tessier, S. D. Christesen, K. K. Ong, E. M. Clemente, A. M. Lenhoff,
E. W. Kaler and O. D. Velev, Applied Spectroscopy, 56, 1524 (2002).
173. “Morphosynthesis of Nanostructured Polymer Gels by Polymerization within Reverse Hexagonal
Mesophases,” H. Hentze and E. W. Kaler, Chemistry of Materials, 15, 708 (2003).
174. “Silica Hollow Spheres by Templating of Catanionic Vesicles,” H. Hentze, S. R. Raghavan, C. A. McKelvey
and E. W. Kaler, Langmuir, 19, 1069 (2003).
175. “The Microstructure and Rheology of Mixed Cationic/Anionic Wormlike Micelles,” B. A. Schubert, E. W.
Kaler and N. J. Wagner, Langmuir, 19, 4079 (2003).
176. “Gaussian Curvature and the Equilibrium Among Bilayer Cylinders, Spheres, and Discs,” H-T. Jung, S. Y.
Lee, E. W. Kaler, B. Coldren and J. A. Zasadzinski, Proceedings of the National Academy of Sciences, 99,
15318 (2002).
177. “Kinetics and Mechanism of the Multiple Addition Microemulsion Polymerization of Hexyl Methacrylate,” K.
D. Hermanson and E. W. Kaler, Macromolecules, 36, 1836 (2003).
178. “Polymerization of and Within Self-organized Media,” H. Hentze and E. W. Kaler, Cur. Opin. Coll. Interface
Sci, 8, 164 (2003).
179. “Shear-Induced Phase Separation in Solutions of Giant Wormlike Micelles,” S. R. Raghavan, B. A. Schubert,
N. J. Wagner and E. W. Kaler, Langmuir, 20, 3564 (2004).
180. “Formation of Multilamellar Vesicles by Oscillatory Shear,” G. Fritz, N. J. Wagner and E. W. Kaler,
Langmuir, 19, 8709 (2003).
181. “Structural Fixation of Spontaneous Vesicles in Aqueous Mixtures of Polymerizable Anionic and Cationic
Surfactants,” S. Liu, Y. I. Gonzalez, and E. W. Kaler, Langmuir, 19, 10732 (2003).
182. “Two-dimensional Crystallization of Microspheres by Coplanar AC Electric Field,” S.O. Lumsdon, O.D.
Velev, and E.W. Kaler, Langmuir, 20, 2108 (2004).
183. “Spontaneous Curvature Effects on Spontaneous Vesicles,” J.A. Zasadzinski, H.T. Jung, B. Coldren and E.W.
Kaler in Self –Assembly (B.H. Robinson, ed.), IOS Press, Amsterdam, 2003 (pp. 432-442).
184. “Phase Behavior and Microstructure in Aqueous Mixtures of Cationic and Anionic Surfactants,” E.W. Kaler,
K.L. Herrington, D.J. Iampietro, B.A. Coldren, H.T. Jung, J.A. Zasadzinski in Mixed Surfactant Systems:
Second Edition, Revised & Expanded (M. Abe and J. Scamehorn, 2nd ed.), Marcel Dekker, New York, 2004
(pp. 289-337).
185. “Formation of Surfactant and Polyelectrolyte Gel Particles in Aqueous Solutions,” Yakov Lapitsky and E.W.
Kaler, Colloids and Surfaces A, 250, 179 (2004).
186. “Transition from Microemulsion to Emulsion Polymerization: Mechanism and Final Properties,” E.W. Kaler,
Kevin D. Hermanson, Journal of Polymer Science Part A, 42, 5253 (2004).
187. “Spontaneous Vesicle Formation and Phase Behavior in Mixtures of an Anionic Surfactant with Imidazoline
Compounds,” Yamaira I. González, Maria Stjerndahl, Dganit Danino and Eric W. Kaler, Langmuir, 20, 7053
(2004).
188. “Molecular Effects of Anionic Surfactants on Lysozyme Precipitation and Crystallization,” O.D. Velev, Y.H.
Pan, E.W. Kaler and A.M. Lenhoff, Cryst. Growth and Design 5, 351 (2005).
189. “Quantitative Imaging by Confocal Scanning Fluorescence Microscopy of Protein Crystallization via Liquid-
Liquid Phase Separation,” D. Vivares, E.W. Kaler, and A. M. Lenhoff, Acta Cryst. D 61, 819 (2005).
190. “The Role of Protein and Surfactant Interactions in Membrane Protein Crystallization,” B. W. Berger, C. M.
Gendron, C. R. Robinson, E. W. Kaler, and A. M. Lenhoff, Acta Cryst. D 61, 724 (2005).
191. “Relating Surfactant Properties to Activity and Solubilization of the Human Adenosine A3 Receptor,” B. W.
Berger, R. Y. Garcia, A. M. Lenhoff, E. W. Kaler, C. R. Robinson, Biophysics J., 89, 452 (2005).
192. “Polymerization of Worm-like Micelles Induced by Hydrotropic Salt,” S. Liu, Y. Gonzalez, D. Danino, and E.
W. Kaler, Macromolecules, 38, 2482 (2005).
193. “The Influence of pH on the Micelle to Vesicle Transition in Aqueous Mixtures of Sodium Dodecyl
Benzenesulfonate with Histidine,” Y. I. Gonzalez, H. Nakanishi, M. Stjerndahl, and E. W. Kaler, J. Phys.
Chem B., 109, 11675 (2005).
194. “Smoothing Out the Wrinkles” E. W. Kaler, News and Views, Nature Materials 4, 11 (2005).
195. “Microemulsion Polymerization: Phase Behavior Driven Mechanistic Changes,” O. Lade, C .C. Co, P. Cotts,
R. Strey, and E. W. Kaler, Colloid and Polymer Science, 283, 905 (2005).
196. “Fibrous Assemblies and Water Gelation in Mixtures of Lysine with Sodium Alkyl Sulfates,” Y. I. Gonzalez
and E. W. Kaler, Langmuir, 21, 7191 (2005).
197. “Mixtures of n-Octyl-ß-D-glucoside and Triethylene Glycol Mono-n-octyl Ether: Phase Behavior and
Micellar Structure near the Liquid-Liquid Phase Boundary,” G. M. Santonicola and E. W. Kaler, Langmuir,
21, 9955 (2005).
198. “Structural Characteristics and Growth of Pentagonal Silver Nanorods Prepared by a Surfactant Method,” C.
Ni, P. A. Hassan, and E. W. Kaler, Langmuir, 21, 3334 (2005).
199. “Small Angle Neutron Scattering From Mixtures of Sodium Dodecyl Sulfate and a Cationic, Bolaform
Surfactant Containing Azobenzene,” F. P. Hubbard, Jr., G. Santonicola, E. W. Kaler, and N. L. Abbott,
Langmuir, 21, 6131 (2005).
200. “Cryo-TEM Studies of Worm-like Micellar Solutions,” Y. I. Gonzalez, and E. W. Kaler, Current Opinion in
Colloid and Interface Science, 10, 256 (2005).
201. “Reversible Addition-Fragmentation Chain Transfer Polymerization in Microemulsion,” S. Liu, K. D.
Hermanson, and E. W. Kaler, Macromolecules, in press (2005).
202. “Polymerization of Anionic Worm-like Micelles,” Z. Zhu, Y. I. Gonzalez, H. Xu, E. W. Kaler, and S. Liu,
Langmuir, 22, 949 (2006).
203. “Kinetic Modeling of Controlled Living Microemulsion Polymerizations That Use Reversible Addition-
Fragmentation Chain Transfer (RAFT),” K. D. Hermanson, S. Liu, and E. W. Kaler, J. Polymer Science, in
press (2006).
204. “Formation and Structural Control of Surfactant and Polyelectrolyte Gels,” Y. Lapitsky and E. W. Kaler,
Colloids and Surfaces A, 282-283, 118 (2006).
205. “Surfactant and Polyelectrolyte Gel Particles that Swell Reversibly,” Y. Lapitsky, W. J. Eskuchen, and E. W.
Kaler, Langmuir, 22, 6375 (2006).
206. “Surfactant and Polyelectrolyte Gel Particles for Encapsulation and Release of Aromatic Oils,” Soft Matter,
accepted (2006).