Downloaded by 80.82.77.83 on January 1, 2018 | http://pubs.acs.org Publication Date: December 30, 1989 | doi: 10.1021/bk-1989-0384.ix001
Author Index Ambrosino, S., 142 Ananthapadmanabhan, K. P., 297 Anderson, David M , 204 Araki,K., 255 Aston, Mark S., 338 Attard, G. S., 255 Baradji, Ch. H., 100 Benton, W. J., 64 Bhatti, A M., 255 Bock, J., 328 Bowden, Carlier J., 338 Cabane, G , 312 Candau, Françoise, 47 Cuculo, John A , 156 Cuirassier, F., 100 DuPre, D. B., 130 Duplessix, R., 312 Effler, L. J., 225 El-Aasser, M. S., 86 El-Nokaly, Magda A , xi Fellers, J. F., 225 Fendler, E. J., 64 Finkelmann, H., 1 Fornes, R. E., 184 Friberg, Stig E., 34 Gallot, Bernard, 116 Garrard, A , 184 Gilbert, R. D., 184 Goddard, E. D., 297 Griffin, A C , 255 Guo, J. S., 86 Haque, E., 64 Hassan, Hussein Haj, 116
Hawkinson, D. E., 184 Herrington, Thelma M., 338 Hong, Y. K., 184 Ise, Norio, 284 Jahns, Ε., 1 Kitano, Hiromi, 284 Kohout, E., 184 Kyu, Thein, 266 L. Hung, R. S., 255 Leung, P. S., 297 Lewis, D. N., 225 Luckham, P. F., 22 Myer, P., 328 Moura-Ramos, J. J., 255 Mukherjee, Partha, 266 Parthasarathyl, R., 130 Qutubuddin, S., 64 Riess, G., 100 Rong, Guo, 34 Siano, D. B., 328 Sixou, Pierre, 142 Strom, Pelle, 204 Tadros, Tharwat F., 22,338 Theil, Michael H., 156 Vanderhoff, J. W., 86 Williams, G., 255 Wong, K., 312 Yanaranop, C , 22 Yang, Ch. Ch., 34 Yang, Kap-Seung, 156 Yang, Yun, 34 Zhuang, Ping, 266
Affiliation Index BP America, 64 Case Western Reserve University, 64 Centre de Biophysique Moléculaire, 116 Clarkson University, 34 Centre d'Etudes Nucléaires de Saclay, 312 Ecole Nationale Supérieure de Chimie de Mulhouse, 100 Exxon Research and Engineering Company, 328 ICI Agrochemicals, 22 ICI Plant Protection Division, 338 Imperial College of Science and Technology, 22
Institut Charles Sadron, 47 Kyoto University, 284 Laboratoire de Physique de la Matière Condensée, 142 Lehigh University, 86 North Carolina State University, 156,184 Procter & Gamble, xi Union Carbide Corporation, 297 Universitât Freiburg, 1 University College of Wales, 255 University of Akron, 266
354
El-Nokaly; Polymer Association Structures ACS Symposium Series; American Chemical Society: Washington, DC, 1989.
355
INDEX University of Louisville, 130 University of Lund, 204 University of Reading, 338
University of Southern Mississippi, 255 University of Swansea, 255 University of Tennessee, 225
Downloaded by 80.82.77.83 on January 1, 2018 | http://pubs.acs.org Publication Date: December 30, 1989 | doi: 10.1021/bk-1989-0384.ix001
Subject Index
A - B - A block copolymers assessment of samples, 23-24 construction of phase diagrams, 24 light-scattering measurements, 24-25 preparation of samples, 23 Adsorbed polymer layer around a sphere, self-similar picture, 321,322f,323 Ammonia-ammonium thiocyanate mixtures, solvents for cellulose, 157 Amphiphilic lipopeptides advantages, 117 emulsifying properties, 119-124 factors governing geometrical parameters of mesophase, 119,12Qf formation, 117 general formula, 117 microemulsions, 122 miniemulsions, 118-122 preparation of emulsions, 117 preparation of mesophases, 117 preparation of microemulsions, 118 preparation of miniemulsions, 117-118 stability of emulsions and miniemulsions, 118 types of liquid-crystalline structures, 118-119 X-ray diffraction studies, 117 Amphiphilic polymers introduction of amphiphilic moieties, 7,8f micellar association, 6-7,8/" solution behavior, 6 Anionic microemulsion system, hydrophile—lipophile characteristics, 331 Anisotropic dispersion interaction description, 2 effect of critical concentration, 2 nematic ordering of rodlike molecules, 23/ Aqueous hydroxypropyl cellulose phase behavior, 267 phenomenon of thermally induced phase separation, 267 Aqueous hydroxypropyl cellulose solutions amplification vs. wave number, 275,277/ apparent diffusivity vs. temperature, 275,277/ calculation of maximum scattered intensity, 278
Aqueous hydroxypropyl cellulose solutions— Continued calculation of normalized scaled structure factor, 281 diagram of hot stage, 268,265^ diagram of time-resolved light scattering, 268,269/" diffusivity calculation, 275,278 early stages of spinodal decomposition, 273-278 evolution of scattering during solvent evaporation, 270,273/" heating-rate dependence of cloud point temperatures, 270,271/ late stages of spinodal decomposition, 278-280 log-log plot of diffusivity vs. temperature, 278f log of intensity vs. elapsed time, 275,27φ" maximum intensity vs. time, 279,28Qf maximum wave number calculation, 279 maximum wave number vs. time, 279,28Qf normalized scaled structure factor vs. wave numberratio,281,282/" perspective plots of scattering halo, 268,270,271/ scattered intensity calculation, 273,275 vs. temperature, 270,271/ vs. wave number, 281,282/" scattering pattern vs. heating, 273,274/" structural evolution, 270,273 diagram of temperature vs. concentration phase, 270,273/" tests with scaling theories, 279,280-282 time evolution of scattering curves during phase dissolution, 273,279* during phase segregation, 273,274/" Aromatic hydrocarbon-polar group interaction in microemulsions, effect of aromatic compounds, 41,42/" Association processes between antigen- and antibody-carrying latex particles activation parameters, 292/,295 associationrateconstant, 293,295 forwardrateconstant, 293 observed reactionrateconstant, 293 second-orderrateconstant, 293
El-Nokaly; Polymer Association Structures ACS Symposium Series; American Chemical Society: Washington, DC, 1989.
