126. M.E. Hays & N.L. Abbott*, "Electrochemical Control of the Interactions of Polymers and Redox-Active Surfactants", Langmuir, 27, 91-96 (2005). <Link>
125. L.-L. Cheng, Y.-Y. Luk, C.J. Murphy, B.A. Israel & N.L. Abbott*, "Compatibility of Lyotropic Liquid Crystals with Viruses and Mammalian Cells that Support the Replication of Viruses”, Biomaterials, 26, 7173-7182 (2005). <Link>
124. E.B. Kim, N. Lockwood, M. Chopra, O. Guzman, N.L. Abbott & J.J. de Pablo*, "Interactions of Liquid-Crystal Forming Molecules with Phospholipid Bilayers by Molecular Dynamics Simulations", Biophysical Journal, 89, 3141-3158 (2005). <Link>
123. N.A. Lockwood & N.L. Abbott*, “Self-Assembly of Surfactants and Phospholipids at Interfaces between Aqueous Phases and Thermotropic Liquid Crystals”, Current Opinion in Colloid and Interface Science, 10, 111-120 (2005). <Link>
122. Y.-Y. Luk, C.-H. Jang, L.-L. Cheng, B.A. Israel & N.L. Abbott*, "Influence of Lyotropic Liquid Crystals on the Ability of Antibodies to Bind to Surface-Immobilized Antigens”, Chemistry of Materials, 17, 4774-4782 (2005). <Link>
121. N.L. Abbott*, C.M. Jewell, M.E. Hays, Y. Kondo, D.M. Lynn*, “Ferrocene-Containing Cationic Lipids: Influence of Redox State on Cell Transfection”, Journal of American Chemical Society, 127, 11576-11577 (2005). <Link>
120. F. Zheng, V. Perez-Dieste, J.L. McChesney, Y.-Y. Luk, N.L. Abbott & F.J. Himpsel*, "Detection and Switching of the Oxidation State of Fe in a Self-Assembled Monolayer", Surface Science, 587, L191-L196 (2005). <Link>
119. N.A. Lockwood, J.J. de Pablo & N.L. Abbott*, “Influence of Surfactant Tail Branching and Organization on the Orientation of Liquid Crystals at Aqueous-Liquid Crystal Interfaces”, Langmuir, 21, 6805-6814 (2005). <Link>
118. F.P. Hubbard, G. Santonicola, E.W. Kaler & N.L. Abbott*, “Small-Angle Neutron Scattering from Mixtures of Sodium Dodecyl Sulfate and a Cationic, Bolaform Surfactant Containing Azobenzene", Langmuir, 21, 6131-6136 (2005). <Link>
117. T.L. Clare, B.H. Clare, B.M. Nichols, N.L. Abbott & R.J. Hamers*, “Functional Monolayers for Improved Resistance to Protein Adsorption: Oligo(Ethylene Glycol)-Modified Silicon and Diamond Surfaces”, Langmuir, 21, 6344-6355 (2005). <Link>
116. B.H. Clare & N.L. Abbott*, “Orientations of Nematic Liquid Crystals on Surfaces Presenting Controlled Densities of Peptides: Amplification of Protein-Peptide Binding Events”, Langmuir, 21, 6451-6461 (2005). <Link>
115. V. Dupres, F.D. Menozzi*, C. Locht, B.H. Clare, N.L. Abbott, S. Cuenot, C. Bompard, D. Raze & Y.F. Dufrene*, “Nanoscale Mapping and Functional Analysis of Individual Adhesins on Living Bacteria”, Nature Methods, 2, 515-520 (2005). <Link>
114. C.-H. Jang, M.L. Tingey, N.L. Korpi, G.J. Wiepz, J.H. Schiller, P.J. Bertics & N.L. Abbott*, “Using Liquid Crystals to Report Membrane Proteins Captured by Affinity Microcontact Printing from Cell Lysates and Membrane Extracts”, Journal of American Chemical Society, 25, 8912-8913 (2005). <Link>
113. A. Berquand, N. Xia, D.G. Castner, B.H. Clare, N.L. Abbott, V. Dupres, Y. Adriaensen & Y.F. Dufrene*, “Antigen Binding Forces of Single Anti-Lysozyme Fv Fragments Explored by Atomic Force Microscopy”, Langmuir, 21, 5517-5523 (2005). <Link>
112. O. Guzman*, N.L. Abbott & J.J. de Pablo*, "Quenched Disorder in a Liquid-Crystal Biosensor: Adsorbed Nanoparticles at Confining Walls," Journal of Chemical Physics, 122, 184711 (2005). <Link>
111. O. Guzman*, N.L. Abbott, and J.J. de Pablo, "Defect Structures and Three-Body Potential of Mean Force for Nanoparticles in Nematic Host," Journal of Polymer Science Part B-Polymer Physics, 43, 1033-1040 (2005). <Link>
110. J.M. Brake, M.K. Daschner & N.L. Abbott*, “Formation and Characterization of Phospholipid Monolayers Spontaneously Assembled at Interfaces Between Aqueous Phases and Thermotropic Liquid Crystals”, Langmuir, 21, 2218-2228 (2005). <Link>
109. G. Bai, M.D. Graham* & N.L. Abbott*, “Role of Desorption Kinetics in Determining Marangoni Flows Generated by using Electrochemical Methods and Redox-Active Surfactants”, Langmuir, 21, 2235-2241 (2005). <Link>
108. S. Grollau, O. Guzman, N.L. Abbott & J.J. de Pablo*, “Slow Dynamics of Thin Nematic Films in the Presence of Adsorbed Nanoparticles”. Journal of Chemical Physics, 122, 024703 (2005). <Link>
107. K.-L. Yang, K. Cadwell & N.L. Abbott*, “Use of Self-Assembled Monolayers, Metal Ions and Smectic Liquid Crystals to Detect Organophosphonates”, Sensors and Actuators B-Chemical, 104, 50-56 (2005). <Link>
2004
106. K.-L. Yang, K. Cadwell & N.L. Nicholas*, “Mechanistic Study of the Anchoring Behavior of Liquid Crystals Supported on Metal Salts and Their Orientational Responses to Dimethyl Methylphosphonate”, Journal of Physical Chemistry B, 108, 20180-20186 (2004). <Link>
105. Y.-Y. Luk, K.-L. Yang, K. Cadwell & N.L. Abbott*, “Deciphering the Interactions between Liquid Crystals and Chemically Functionalized Surfaces: Role of Hydrogen Bonding on Orientations of Liquid Crystals”, Surface Science, 570, 43-56 (2004). <Link>
104. F.J. Himpsel*, J.L. McChesney, J. N. Crain, A. Kirakosian, V. Perez-Dieste, N.L. Abbott, Y.-Y. Luk, P.F. Nealey & D.Y. Petrovykh, “Stepped Silicon Surfaces as Templates for One-Dimensional Nanostructures.”, Journal of Physical Chemistry B,108, 14484-14490 (2004). <Link>
103. T.L. Lasseter, B.H. Clare, N.L. Abbott & R.J. Hamers*, “Covalently Modified Silicon and Diamond Surfaces: Resistance to Nonspecific Protein Adsorption and Optimization for Biosensing.”, Journal of the American Chemical Society, 126, 10220-10221 (2004). <Link>
101. M.L. Tingey, S. Wilyana, E.J. Snodgrass & N.L. Abbott*, “Imaging of Affinity Microcontact Printed Proteins by Using Liquid Crystals.” Langmuir, 20, 6818-6826 (2004). <Link>
100. Y.-Y. Luk, M.L. Tingey, K.A. Dickson, R.T. Raines* & N.L. Abbott*, “Imaging the Binding Ability of Proteins Immobilized on Surfaces with Different Orientations by Using Liquid Crystals.” Journal of the American Chemical Society, 126, 9024-9032 (2004). <Link>
99. E.B. Kim, O. Guzman, S. Grollau, N.L. Abbott & J.J. de Pablo*, “Interactions Between Spherical Colloids Mediated by a Liquid Crystal: A Molecular Simulation and Mesoscale Study.” Journal of Chemical Physics, 121, 1949-1961 (2004). <Link>
98. Y.-Y. Luk, N.L. Abbott*, J.N. Crain & F.J. Himpsel*, “Dipole-Induced Structure in Aromatic-Terminated Self-Assembled Monolayers - A Study by Near Edge X-ray Absorption Fine Structure Spectroscopy.” Journal of Chemical Physics, 120, 10792-10798 (2004). <Link>
97. Y.-Y. Luk, S. Campbell, N.L. Abbott* & C.J. Murphy*, “Non-toxic Thermotropic Liquid Crystals for use with Mammalian Cells.” Liquid Crystals, 31, 611-621 (2004). <Link> 96. L.A.T. Espinoza, K.R. Schumann, Y.-Y. Luk, B.A. Israel & N.L. Abbott*, “Orientational Behavior of Thermotropic Liquid Crystals on Surfaces Presenting Electrostatically Bound Vesicular Stomatitis Virus”. Langmuir, 20, 2375-2385 (2004).<Link>
95. C.A.Rosslee, C. Khripin, T.M.D. Foley & N.L. Abbott*, “Using "Prosurfactants" to Enhance Rates of Delivery of Surfactants.” AIChE Journal, 50, 708-714 (2004). <Link>
93. S. Follonier, W.J.W. Miller, N.L. Abbott & A. Knoesen*, “Characterization of the Molecular Orientation of Self-Assembled Monolayers of Alkanethiols on Obliquely Deposited Gold Films by Using Infrared-Visible Sum-Frequency Spectroscopy”, Langmuir, 19, 10501-10509 (2003). <Link>
92. O. Guzman, E.B. Kim, S. Grollau, N.L. Abbott & J.J. de Pablo*, “Defect Structure around Two Colloids in a Liquid Crystal”, Physical Review Letters, 91, 235507 (2003). <Link>
91. K.-L. Yang, K. Cadwell & N.L. Abbott*, “Contact printing of metal ions onto carboxylate-terminated self-assembled monolayers”, Advanced Materials, 15, 1819-1823 (2003). <Link>
90. J.M. Brake, A.D. Mezera & N.L. Abbott*, “Active Control of the Anchoring of 4’-pentyl-4-cyanobiphenyl (5CB) at an Aqueous-Liquid Crystal Interface using a Redox-Active Ferrocenyl Surfactant”, Langmuir, 19, 8629-8637 (2003). <Link>
89. S.S. Datwani, V.N. Truskett, C.A. Rosslee, N.L. Abbott & K.J. Stebe*, "Redox-Dependent Surface Tension and Surface Phase Transitions of a Ferrocenyl Surfactant: Equilibrium and Dynamic Analyses with Fluorescence Images", Langmuir, 19, 8292-8301 (2003). <Link>
88. J.M. Brake, A.D. Mezera & N.L. Abbott*, “Effect of Surfactant Structure on the Orientation of Liquid Crystals at Aqueous-Liquid Crystal Interfaces”, Langmuir, 19, 6436-6442 (2003). <Link>
87. Y.-Y.Luk & N.L. Abbott*, “Surface-Driven Switching of Liquid Crystals Using Redox- Active Groups on Electrodes”, Science, 301, 623-626 (2003). <Link>
86. S. Grollau, E.B. Kim, O. Guzman, N.L. Abbott & J.J. de Pablo*, “Monte Carlo simulations and dynamic field theory for suspended particles in liquid crystalline systems”, Journal of Chemical Physics, 119, 2444-2455 (2003). <Link>
85. S.Grollau, N.L. Abbott & J.J. de Pablo*, “Dynamic interaction between suspended particles and defects in a nematic liquid crystal”, Physical Review E, 67, 051703 (2003). <Link>
84. Y.Y. Luk, M.L. Tingey, D.J. Hall, B.A. Israel, C.J. Murphy, P.J. Bertics & N.L. Abbott*, “Using Liquid Crystals to Amplify Protein-Receptor Interactions: Design of Surfaces with Nanometer-Scale Topography that Present Histidine-Tagged Protein Receptors”, Langmuir, 19, 1671-1680 (2003). <Link>
83. R.R. Shah & N.L. Abbott*, “Orientational Transitions of Liquid Crystals Driven by Binding of Organoamines to Carboxylic Acids Presented at Surfaces with Nanometer-Scale Topography”, Langmuir, 19, 275-284 (2003). <Link>
82. S. Grollau, N.L. Abbott & J.J. de Pablo*, “Spherical particle immersed in a nematic liquid crystal: Effects of confinement on the director field configurations”, Physical Review E, 67, 011702-011702 (2003). <Link>
2002
81. G. Bai, N.L. Abbott* & M.D. Graham*, “Influence of Surface Tension-Driven Convection on the Cyclic Voltammograms of Langmuir Films of Redox-Active Amphiphiles”, Langmuir, 18, 9882-9887 (2002). <Link>
80. Y.Y. Luk & N.L. Abbott*, “Applications of Functional Surfactants”, Current Opinion in Colloids and Interface Science, 7, 267-275 (2002). <Link>
79. E.B. Kim, R. Faller, Q. Yan, N.L. Abbott & J.J. de Pablo*, “Potential of Mean Force between a Spherical Particle Suspended in a Nematic Liquid Crystal and a Substrate”, Journal of Chemical Physics,117, 7781-7787 (2002). <Link>
78. S.R.Kim, A.I. Teixeira, R.F. Nealey, A.E. Wendt & N.L. Abbott*, “Fabrication of Polymeric Substrates with Well-Defined Nanometer-Scale Topography and Tailored Surface Chemistry”, Advanced Materials, 14, 1468-1472 (2002). <Link>
77. N. Aydogan & N.L. Abbott*, “Effect of Electrolyte on Interfacial and Bulk Solution Properties of Ferrocenyl Surfactants with Anionic Head Groups”, Langmuir, 18, 7826-7830 (2002). <Link>
76. M.L. Tingey, Y.-Y. Luk & N.L. Abbott*, “Orientations of Liquid Crystals on Chemically Functionalized Surfaces that Possess Gradients in Nanometer-Scale Topography”, Advanced Materials, 14, 1224-1227 (2002). <Link>
75. J.M. Brake & N.L. Abbott*, “An Experimental System for Imaging the Reversible Adsorption of Amphiphiles at Aqueous-Liquid Crystals Interfaces”, Langmuir, 18, 6101-6109 (2002). <Link>
74. J.A. Van Nelson, S.-R. Kim & N.L. Abbott*, “Amplification of Specific Binding Events between Biological Species using Lyotropic Liquid Crystals”, Langmuir, 18, 5031-5035 (2002). <Link>
73. S.R. Kim & N.L. Abbott*, “Manipulation of the Orientational Response of Liquid Crystals to Proteins Specifically Bound to Covalently Immobilized and Mechanically Sheared Films of Functionalized Bovine Serum Albumin", Langmuir, 18, 5269-5276 (2002). <Link>
72. Y. Gu, F. Nederberg, R. Kange, R.R. Shah, C.J. Hawker*, M. Moller, J.L. Hedrick* & N.L. Abbott*, “Anchoring of Liquid Crystals on Surface-Initiated Polymeric Brushes”, ChemPhysChem, 3, 448-451 (2002). <Link>
71. N. Aydogan & N.L. Abbott*, “Reassessment of the Surface Activity of Ferrocenyldimethylammonium Surfactants”, Colloids and Surfaces A-Physicochemical and Engineering Aspects, 201, 101-109 (2002). <Link>
2001
70. J.Y. Shin & N.L. Abbott*, “Combining Molecular Dynamics Simulations and Transition State Theory to Evaluate the Sorption Rate Constants for Decanol at the Surface of Water”, Langmuir, 17, 8434-8443 (2001). <Link>
69. N.L. Abbott*, “New Horizons for Surfactant Science in Chemical Engineering", AICHE Journal, 47, 2634-2639 (2001). <Link>
68. C.A. Rosslee & N.L. Abbott*, “Principles for Micro-Scale Separations Based on Redox-Active Surfactants and Electrochemical Methods”, Analytical Chemistry, 73, 4808-4814 (2001). <Link>
67. N. Aydogan & N.L. Abbott*, “Interfacial Properties of Unsymmetrical Bolaform Amphiphiles with One Ionic and One Non-Ionic Head Group”, Journal of Colloid and Interface Science, 242, 411-418 (2001). <Link>
66. M. Moller, F. Nederberg, L.S. Lim, R. Kange, C.J. Hawker, J.L. Hedrick*, Y. Gu, R. Shah & N.L. Abbott, “Stannous(II) trifluoromethane sulfonate: A Versatile Catalyst for the Controlled Ring Opening Polymerization of Lactides: Formation of Stereoregular Surfaces From Polylactide Brushes”, Journal of Polymer Science Part A-Polymer Chemistry, 39, 3529-3538 (2001). <Link>
65. S.R. Kim & N.L. Abbott*, “Rubbed Films of Functionalized Bovine Serum Albumin as Substrates for the Imaging of Protein-Receptor Interactions using Liquid Crystals”, Advanced Materials, 13, 1445-1448 (2001). <Link>
64. J.N. Crain, A. Kirakosian, J.L. Lin, Y. Gu, R.R. Shah, N.L. Abbott & F.J. Himpsel*, “Functionalization of Silicon Stepped Arrays II: NEXAFS of Oriented Alkanes and DNA”, Journal of Applied Physics, 90, 3291-3295 (2001). <Link>
63. N. Aydogan & N.L. Abbott*, “Comparison of the Surface Activity and Bulk Aggregation of Ferrocenyl Surfactants with Cationic and Anionic Headgroups”, Langmuir, 17, 5703-5706 (2001). <Link>
62. J.J. Skaife, J.M. Brake & N.L. Abbott*, “Influence of Nanometer-Scale Topography of Surfaces on the Orientational Response of Liquid Crystals to Proteins Specifically Bound to Surface-Immobilized Receptors”, Langmuir, 17, 5448-5457 (2001). <Link>
61. J.J. Skaife & N.L. Abbott*, “Influence of Molecular-Level Interactions on the Orientations of Liquid Crystals Supported on Surfaces Presenting Specifically Bound Proteins", Langmuir, 17, 5595-5604 (2001). <Link>
60. R.R. Shah & N.L. Abbott*, “Principles for Measurement of Chemical Exposure Based on Recognition-Driven Anchoring Transitions in Liquid Crystals", Science, 293, 1296-1299 (2001). <Link>
59. R.R. Shah & N.L. Abbott*, “Coupling of the Orientations of Liquid Crystals and Electrical Double Layers Formed by the Dissociation of Surface-Immobilized Salts”, Journal of Physical Chemistry B, 105, 4936-4950 (2001). <Link>