DeutschesFachbuch.de : Conformation-Dependent Design of Sequences in Copolymers

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Contents
Temperature Dependence of the Colloidal Stability of Neutral Amphiphilic Pol...
V. O. Aseyev • H. Tenhu • F. M. Winnik 1
Approaches to Chemical Synthesis of Protein-Like Copolymers
V. I. Lozinsky 87
Role of Physical Factors in the Process of Obtaining Copolymers
S. I. Kuchanov A. R. Khokhlov 129
After-Action of the Ideas of I. M. Lifshitz in Polymer and Biopolymer Phy...
A. Y. Grosberg A. R. Khokhlov 189
Author Index Volumes 100-196211
Subject Index 237
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Subject Index
AAcrylic acid I 112
Adsorption selectivity I 90
Adsorption-tuned copolymers I 23, 90
AIBN I 108
Alzheimer's disease I 80
Amino acids I 10
Amphiphilic monomers I 177
Amphiphilic polymers II 5
Amyloid fibrils I 80
ATRP I 8
BBiopolymers II 189
Blockiness, heterogeneous II 87
CCatalysis, micellar I 196
Cholic acid I 113
Cluster aggregation, diffusionlimited/reaction-limited I 151
Coil-globule transition I 79, 86, 102, 105, 118; II 189
Collapse transition I 54
Colloidal stability II 1
Configurational statistics II 133
Conformation-dependent sequence design (CDSD) I 1, 8
Controlled radical polymerization I 8
Critical aggregation concentration I 202
DDegenerative chain transfer technique I 8
Density functional theory I 57
Derjaguin-Landau-Verwey-Overbeek theory (DLVO) II 4
Designability of conformation II 205
Diethylacrylamide (DEA) I 155
Dimethylacrylamide (DMA) I 155
DNA I 15; II 189
- heteropolymer, melting II 203
DNA collapse II 194
EEmulsion copolymerization I 36
GGels, superabsorbing II 189
Gibbs energy II 3
Globular proteins I 179
Globules II 1, 189
Glycidyl methacrylate II 92
HHA copolymer I 84
Heteropolymers, charged I 1
HP model I 9, 179
Hydrophobic effect II 5
Hydrophobization II 94
IImmobilized metal chelate chromatography (IMCC) II 117
Interfaces I 177
Ionomers I 145
N-Isopropylacrylamide I 108, 183; II 14, 92
LLaser light scattering I 106, 114
LCST I 188; II 12
Lifshitz, I.M. II 189
Long-range correlations I 14
MMarkovian copolymers II 135
Mesoglobular phase I 154
Mesoglobules II 1
- colloidal stability II 63
Methyl methacrylate I 187
N-Methyldiethanolamine II 121
Molecular dispenser I 24, 91; II 202
Molecular structure distribution II 132
NNeutral amphiphilic polymers II 5
NIPAM I 108, 183; II 14, 92
p-Nitrophenyl acetate I 196
Nitrophenyl alkanoates I 202
Nonradiative energy transfer II 54
OOil-water boundary II 168
PP(DEA-co-DMA) I 113
Pair correlation functions I 59
PAM-co-NaAA I 151
PDEVP I 202
PEO I 110, 189; II 4, 192
PEO-methacrylates II 46
Phase behavior I 57
Phenolfluorene II 122
PMMA I 85
PNIPAM I 102, 105, 188; II 1, 12, 15
PNIPAM-co-PEO II 29
Poly(acrylamide) I 112
Poly(N-alkylacrylamide) II 15
Poly(N, N-diethylacrylamide) I 113, 170
Poly(ethylene oxide) PEO I 110, 189; II 4, 192
Poly(N-isopropylacrylamide) PNIPAM I 102, 105, 188; II 1, 12, 15
Poly(N-vinylamides) II 36
Poly(N-vinylcaprolactam) I 189; II 1, 12, 36
Poly(vinyl methyl ether) II 1, 12, 59
Polyacrylamide, hydrophobized II 95
Polyamphiphiles I 1
Polyelectrolyte gels II 196
Polyelectrolytes, hydrophobic I 70
Polymer catalysts I 196
Polymeranalogous reactions II 130
Polystyrene, maltopentaose I 186
Protein globules I 79
Protein-like copolymers I 10; II 27, 74, 87
PVCL I 189; II 1, 12, 36
PVME II 1, 12, 59
RRandom energy model II 196
Random phase approximation I 57
Repulsive forces II 4
RISM theory I 57, 58, 63
SSAXS I 185
Scattering II 152
Self-consistent field methods (SCF) I 63
Self-consistent mean field (SCMF) I 57
Sequence assembly I 57
Sequence design II 197, 199, 202
Sequence evolution I 26
Size-composition distribution II 132
Solution properties I 1
Solvent-accessible surface-area I 21
Stable free-radical polymerization I 8
Styrene, maltopentaose I 186
Superabsorbing gels II 189
Surface nanoreactor I 198
TTerephthaloyl dichloride II 122
VN-Vinylcaprolactam I 35, 183; II 98
N-Vinylimidazole I 35; 77 98
N-Vinylpyrrolidone I 109, 158, 183; II 14, 119
ZZipping transition I 84
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