Chemistry Reference
In-Depth Information
59. Orofino TA, Flory PJ (1959) The second virial coefficient for polyelectrolyte. Theory and
experiment. J Phys Chem 63:283 290
60. Hara M, Nakajima A (1980) Anomalies in light scattering from polyelectrolyte in semi
dilute solution region. Polym J 12:711 718
61. Hara M, Nakajima A (1980) Characteristic behaviors of light scattering from polyelectrolyte
in dilute solution region. Polym J 12:701 709
62. Trap HJL, Hermans JJ (1954) Light scattering by polymethacrylic acid and carboxymethyl
cellulose in various solvents. J Phys Chem 58:757 761
63. Schneider NS, Doty P (1954) Macro ions IV. The ionic strength dependence of the molecular
properties of sodium carboxymethylcellulose. J Phys Chem 58:762 769
64. Fisher LW, Sochor AR, Tan JS (1977) Chain characteristics of poly(2 acrylamido 2 methyl
propanesulfonate) polymers. 1. Light scattering and intrinsic viscosity studies. Macromole
cules 10:949 954
65. Griebel T, Kulicke WM, Hashemzadeh A (1991) Characterization of water soluble, cationic
polylectrolytes as exemplified by poly(acrylamido co trimethylammoniumethylmethacrylate)
and the establishment of structure property relationships. Colloid Polym Sci 269:113 120
66. Dautzenberg H, Rother G (1991) Light scattering studies on supramolecular structures in
polymer solutions. J Appl Polym Sci 48:351 369
67. Burkhardt CW, McCarthy KJ, Parazak DP (1987) Solution properties of poly(dimethyldial
lyl ammonium chloride). J Polym Sci Pol Lett 25:209 213
68. Ochiai H, Handa M, Matsumoto H, Moriga T, Murakami I (1985) Dilute solution properties
of poly(allylammonium chloride) in aqueous sodium chloride solutions. Makromolekul
Chem 186:2547 2556
69. Stickler M (1984) Molecular weight distribution and solution properties of poly(2 trimethyl
ammoniumethyl methacrylate chloride). In: Forschung d. R¨hm GmbH. H¨ thig & Wepf,
Basel, pp. 85 117
70. Hasse H, Kany HP, Tintinger R, Maurer G (1995) Osmotic virial coefficients of aqueous poly
(ethylene glycol) from laser light scattering and isopiestic measurements. Macromolecules
28:3540 3552
71. Kany HP, Hasse H, Maurer G (1999) Thermodynamic properties of aqueous dextran solu
tions from laser light scattering, membrane osmometry and isopiestic measurements. J Chem
Eng Data 44:230 242
72. Kany HP, Hasse H, Maurer G (2003) Thermodynamic properties of aqueous poly(vinyl
pyrrolidone) solutions from laser light scattering, membrane osmometry and isopiestic
measurements. J Chem Eng Data 48:689 698
73. Katchalsky A, Lifson S, Mazur J (1953) The electrostatic free energy of polyelectrolyte
solutions I. Randomly kinked macromolecules. J Polym Sci 11:409 423
74. Lifson S, Katchalsky A (1954) The electrostatic free energy of polyelectrolyte solutions II.
Fully stretched macromolecules. J Polym Sci 13:43 55
75. Dolar D, Peterlin A (1969) Rodlike model for a polyelectrolyte solution with mono and
divalent counterions. J Chem Phys 50:3011 3015
76. Manning GS (1969) Limiting laws and counterion condensation in polyelectrolyte solutions
I. Colligative properties. J Chem Phys 51:924 933
77. Manning GS (1978) The molecular theory of polyelectrolyte solutions with applications to
the electrostatic properties of polynucleotides. Q Rev Biophys 11:179 246
78. Manning GS (1984) Limiting laws and counterion condensation in polyelectrolyte solutions 8.
Mixtures of counterions, species selectivity and valence selectivity. J Phys Chem88:6654 6661
79. Stevens MJ, Kremer K (1996) The nature of flexible linear polyelectrolytes in salt free
solution: a molecular dynamics study. J Chem Phys 103:1669 1690
80. Feng Z, Liu HL, Hu Y (1996) Study on thermodynamic properties of polyelectrolyte
solutions. Acta Chim Sinica 54:1076 1083
81. Ospeck M, Fraden S (1998) Solving the Poisson Boltzmann equation to obtain interaction
energies between confined, like charged cylinders. J Chem Phys 109:9166 9171
