Chemistry Reference
In-Depth Information
44. Bercea M, Wolf BA (2006) Enthalpy and entropy contributions to solvent quality and
inversions of heat effects with polymer concentration. Macromol Chem Phys 207(18):1661
1673
45. Saeki S, Kuwahara S, Konno S, Kaneko M (1973) Upper and lower critical solution tempera
tures in polystyrene solutions. Macromolecules 6(2):246
46. Stryuk S, Wolf BA (2003) Chain connectivity and conformational variability of polymers:
clues to an adequate thermodynamic description of their solutions III: Modeling of phase
diagrams. Macromol Chem Phys 204:1948
47. Schuld N, Wolf BA (1999) Polymer solvent interaction parameters In: Brandrup J, Immergut
EH, Grulke EA (eds) Polymer handbook, 4th edn. Wiley, New York
48. Krigbaum WR, Geymer DO (1959) Thermodynamics of polymer solutions. The polystyrene
cyclohexane system near the Flory theta temperature. J Am Chem Soc 81:1859
49. Wolf BA, Jend R (1977)
¨
ber die M¨glichkeiten zur Bestimmung von Mischungsenthalpien
und volumina aus der Molekulargewichtsabh¨ngigkeit der kritsichen Entmischungstemper
aturen und drucke. Makromol Chem 178:1811
50. Stryuk S, Wolf BA (2005) Liquid/gas and liquid/liquid phase behavior of n butane/
1,4 polybutadiene versus n butane/1,2 polybutadiene. Macromolecules 38(3):812
51. Sanchez IC, Balazs AC (1989) Generalization of the lattice fluid model for specific inter
actions. Macromolecules 22:2325
52. Khassanova A, Wolf BA (2003) PEO/CHCl: crystallinity of the polymer and vapor pressure of
the solvent equilibrium and non equilibrium phenomena. Macromolecules 36(17):6645
53. Wolf BA (2005) On the reasons for an anomalous demixing behavior of polymer solutions.
Macromolecules 38(4):1378
54.
ˇ
olc K, Duˇek K, Koningsveld R, Berghmans H (1995) “Zero” and “off zero” critical
concentrations in solutions of polydisperse polymers with very high molar masses. Collect
Czech Chem Commun 60(10):1661 1688
55. Sch¨fer Soenen H, Moerkerke R, Berghmans H, Koningsveld R, Duˇek K,
ˇ
olc K (1997) Zero
and off zero critical concentrations in systems containing polydisperse polymers with very
high molar masses. 2. The systemwater poly(vinyl methyl ether). Macromolecules 30(3):410
416
56. Meeussen F, Bauwens Y, Moerkerke R, Nies E, Berghmans H (2000) Molecular complex
formation in the system poly(vinyl methyl ether)/water. Polymer 41(10):3737 3743
57. Eckelt J, Wolf BA (2007) Cellulose/water: l/g and l/l phase equilibria and their consistent
modeling. Biomacromolecules 8:1865
58. Xiong X, Eckelt J, Zhang L, Wolf BA (2009) Thermodynamics of block copolymer solutions
as compared with the corresponding homopolymer solutions: experiment and theory. Macro
molecules 42:8398
59. Wolf BA (2006) Polymer polymer interaction: consistent modeling in terms of chain connec
tivity and conformational response. Macromol Chem Phys 207(1):65
60. Halary JL, Ubrich JM, Monnerie L, Yang H, Stein RS (1985) Polym Commun 26:73
61. Ben Cheikh Larbi F, Lelong S, Halary JL, Monnerie L, Yang H (1986) Polym Commun 22:23
62. R¨tsch MT, Kehlen H, Wohlfarth C (1988) Polydispersity effects on the demixing behavior of
poly(vinyl methyl ether)/polystyrene blends. J Macromol Sci Chem A25:1055
63. Greenberg CC, Foster MD, Turner CM, Corona Galvan S, Cloutet E, Butler PD, Hammouda B,
Quirk RP (1999) Effective interaction parameter between topologically distinct polymers.
Polymer 40(16):4713
64. Hill MJ, Barham PJ, Keller A, Rosney CCA (1991) Phase segregation in melts of blends of
linear and branched polyethylene. Polymer 32(8):1384 1393
65. Hill MJ, Barham PJ, Keller A (1991) Phase segregation in blends of linear with branched
polyethylene
the effect of varying the molecular weight of the linear polymer. Polymer 33
(12):2530
66. Stephens CH, Hiltner A, Baer E (2003) Phase behavior of partially miscible blends of linear
and branched polyethylenes. Macromolecules 36(8):2733 2741
