My Papers

  1. G. D. J. Phillies, “Effect of Intermacromolecular Interactions on Diffusion. III. Electrophoresis in Three-Component Solutions”, J. Chem. Phys. 59, 2613-2617 (1973).
  2. G. D. J. Phillies, “Effect of Intermacromolecular Interactions on Diffusion. I. Two-Component Solutions”, J. Chem. Phys. 60, 976-982 (1974).
  3. G. D. J. Phillies, “Effect of Intermacromolecular Interactions on Diffusion. II. Three-Component Solutions”, J. Chem. Phys. 60, 983-989 (1974).
  4. G. D. J. Phillies, “Excess Chemical Potential of Dilute Solutions of Spherical Polyelec-trolytes”, J. Chem. Phys. 60, 2721-2731 (1974).
  5. I. M. Asher, G. D. J. Phillies, and H. E. Stanley, “Nonactin and Its Alkali Complexes — A Raman Spectroscopic Study”, Biochem. and Biophys. Res. Comm. 61, 1356-1362 (1974).
  6. G. D. J. Phillies, “Continuum Hydrodynamic Interactions and Diffusion”, J. Chem. Phys. 62, 3925-3932 (1975).
  7. G. D. J. Phillies, I. M. Asher, and H. E. Stanley, “Electrostatic and Steric Effects in the Selective Complexation of Cations in Nonactin”, Science 188, 1027-1029 (1975).
  8. G. D. J. Phillies, “Fluorescence Correlation Spectroscopy and Non-Ideal Solutions”, Biopolymers 14, 499-508 (1975).
  9. H. E. Stanley, I. M. Asher, K. J. Rothschild, G. D. J. Phillies, E. B. Carew, R. D. Bansil, and I.A.. Michaels, “Resonance and Non-Resonance Raman Spectroscopy: A Probe of Peptide and Protein Conformation”, in Peptides: Chemistry, Structure, and Biology, R. Walter and J.Meienhofer, Eds. Ann Arbor Science Publishers, 227-245 (1975).
  10. G. D. J. Phillies, I. M. Asher, and H. E. Stanley, “Nonactin, Monactin, Dinactin, Trinactin, and Tetranactin. A Raman Spectroscopic Study”, Biopolymers 14, 2311-2327 (1975).
  11. G. D. J. Phillies, “Contribution of Slow Charge Fluctuations to Light Scattering from a Monodisperse Solution of Macromolecules”, Macromolecules 9, 447-450 (1976).
  12. G. D. J. Phillies and H. E. Stanley, “Hydroxyl Deformation Frequencies as a Probe of Hy-drogen Bonding in Lasalocid A (X-537A) and Its Sodium Complex”, J. Am. Chem. Soc. 98, 3892-3897 (1976).
  13. G. D. J. Phillies, G. B. Benedek, and N. A. Mazer, “Diffusion in Protein Solutions at High Concentrations: A Study by Quasielastic Light Scattering Spectroscopy”, J. Chem. Phys. 65, 1883-1892 (1976).
  14. G. D. J. Phillies, “Diffusion of Spherical Macromolecules at Finite Concentration”, J. Chem. Phys. 65, 4334-4335 (1976).
  15. G. D. J. Phillies, “Heterodyne Coincidence Spectroscopy: Direct Probe of Three-body Cor-relations in Fluids”, Molecular Physics 32, 1695-1702 (1976).
  16. I. M. Asher, G. D. J. Phillies, B. J. Kim, and H. E. Stanley, “Ion Complexation in Nonactin, Monactin, and Dinactin: A Raman Spectroscopic Study” Biopolymers 16, 157-185 (1977).
  17. G. D. J. Phillies, “On the Contribution of Non-Hydrodynamic Interactions to the Concen-tration Dependence of the Drag Coefficient of Rigid Macromolecules”, J. Chem. Phys. 67, 4690-4695 (1977).
  18. G. D. J. Phillies, P. J. Chappell, and D. Kivelson, “Evidence Against a Strong Critical Anomaly in the Depolarized Rayleigh Line of Nitrobenzene: n-Hexane”, J. Chem. Phys. 68, 4031-4033 (1978).
  19. G. D. J. Phillies, “On the Contribution of Direct Intermacromolecular Interactions to the Viscosity of a Suspension of Hard Spheres”, J. Chem. Phys. 71, 1492-1494 (1979).
  20. G. D. J. Phillies and D. Kivelson, “Depolarized Rayleigh Scattering by Nitrobenzene in Binary and Ternary Combination with Acetone and Isopropanol”, J. Chem. Phys. 71, 2575-2580 (1979).
  21. G. D. J. Phillies and D. Kivelson, “Theory of Light Scattering from Density Fluctuations in a Two-Component Reacting Fluid”, Molecular Physics 38, 1393-1410 (1979).
  22. I. M. Asher, G. D. J. Phillies, R. B. Geller, and H. E. Stanley, “Cyclo(L-prolylglycyl)3 and Its Sodium, Potassium, and Calcium Ion Complexes: A Raman Spectroscopic Study”, Bio-chemistry 19, 1805-1813 (1980).
  23. G. D. J. Phillies, “Bispectral Analysis as a Probe of Quasielastic Light Scattering Intensity Fluctuations”, J. Chem. Phys. 72, 6123-6133 (1980).
  24. G. D. J. Phillies, “Suppression of Multiple Scattering Effects in Quasi-Elastic Light Scattering by Homodyne Cross-Correlation Techniques”, J. Chem. Phys. 74, 260-262 (1981).
  25. G. D. J. Phillies, “Contribution of Nonhydrodynamic Interactions to the Concentration De-pendence of the Friction Factor of the Mutual Diffusion Coefficient”, J. Chem. Phys. 74, 2436-2440 (1981).
  26. G. D. J. Phillies, “Erratum: Bispectral Analysis as a Probe of Quasi-Elastic Light Scattering Fluctuations [J. Chem. Phys. 72, 6123 (1980)], J. Chem. Phys. 74, 5333-5334 (1981).
  27. G. D. J. Phillies and P. R. Wills, “Light Scattering Spectrum of a Suspension of Interacting Brownian Macromolecules”, J. Chem. Phys. 75, 508-514 (1981).
  28. G. D. J. Phillies, “Translational Diffusion Coefficient of Macroparticles in Solvents of High Viscosity”, J. Phys. Chem. 85, 2838-2843 (1981).
  29. G. D. J. Phillies, “Experimental Demonstration of Multiple-Scattering Suppression in Quasi-Elastic-Light-Scattering by Homodyne Coincidence Techniques”, Phys. Rev. A 24, 1939-1943 (1981).
  30. G. D. J. Phillies, “Reactive Contribution to the Apparent Translational Diffusion Coefficient of a Micelle”, J. Phys. Chem. 85, 3540-3541 (1981).
  31. G. D. J. Phillies, “Interpretation of Micelle Diffusion Coefficients”, J. Coll. Interface Sci. 86, 226-233 (1982).
  32. G. D. J. Phillies, “Upon the Utility of Spherical Harmonic Expansions in the Evaluation of Cluster Integrals”, J. Stat. Phys. 28, 673-683 (1982).
  33. G. D. J. Phillies, “The Second Order Concentration Corrections to the Mutual Diffusion Coefficient of Brownian Macroparticles”, J. Chem. Phys. 77, 2623-2631 (1982).
  34. T.-H. Lin and G. D. J. Phillies, “Translational Diffusion of a Macroparticulate Probe Species in Salt-Free Poly(acrylic) Acid:Water”, J. Phys. Chem. 86, 4073-4077 (1982).
  35. G. D. J. Phillies, “A Homework Problem Demonstrating the Importance of Assumptions Made While Integrating Chemical Rate Equations”, J. Chem. Education 59, 1029 (1982); with supplement (35.a) G. D. J. Phillies, “Oversimplifications in the Integration of Chemical Rate Equations”, announced in (35) as available for private circulation to interested parties.
  36. G. D. J. Phillies, “USSR and Latin America”, Physics Today 35, 87 (1982).
  37. G. D. J. Phillies, “A Second Generalized Equipartition Theorem”, J. Chem. Phys. 78, 1620-1621 (1983).
  38. Alina C. Fernandez and G. D. J. Phillies, “Temperature Dependence of the Diffusion Coeffi-cient of Polystyrene Latex Spheres”, Biopolymers 22, 593-595 (1983).
  39. G. D. J. Phillies, “Utility of Multidetector Methods in Quasi-Elastic Light-Scattering Spec-troscopy”, in Measurement of Suspended Particles by Quasi-Elastic Light Scattering, B. Dah-neke, Editor, Wiley, New York (1983), pp. 291-326.
  40. G. D. J. Phillies, “Non-Hydrodynamic Contribution to the Concentration Dependence of the Self Diffusion of Interacting Brownian Macroparticles”, Chemical Physics 74, 197-203 (1983).
  41. G. D. J. Phillies, “Observations upon the Dynamic Structure Factor of Interacting Spherical Polyelectrolytes”, J. Chem. Phys. 79, 2325-2332 (1983).
  42. G. S. Ullmann and G. D. J. Phillies, “Implications of the Failure of the Stokes-Einstein Relation for Measurements with QELSS of Polymer Adsorption by Small Particles”, Macro-molecules 16, 1947-1949 (1983).
  43. G. D. J. Phillies, “Hidden Correlations and the Behavior of the Dynamic Structure Factor at Short Times”, J. Chem. Phys. 80, 6234-6239 (1984).
  44. G. D. J. Phillies, “The Polythermal Ensemble: A Rigorous Interpretation of Temperature Fluctuations in Statistical Mechanics”, American Journal of Physics 52, 629-632 (1984).
  45. T.-H. Lin and G. D. J. Phillies, “Probe Diffusion in Polyacrylic Acid:Water — Effect of Polymer Molecular Weight”, J. Colloid Interface Sci. 100, 82-95 (1984).
  46. G. D. J. Phillies, “Measurement of the (Quasi)-Self-Diffusion Coefficient of Solutions of Brow¬nian Macroparticles”, J. Chem. Phys. 81, 1487-1492 (1984).
  47. T.-H. Lin and G. D. J. Phillies, “Probe Diffusion in Poly(Acrylic Acid): Water. Effect of Probe Size”, Macromolecules 17, 1686-1691 (1984).
  48. G. D. J. Phillies, “Why Does the Generalized Stokes-Einstein Equation Work?”, Macro-molecules 17, 2050-2055 (1984).
  49. G. D. J. Phillies, “Translational Drag Coefficients of Assemblies of Spheres with Higher-Order Hydrodynamic Interactions”, J. Chem. Phys. 81, 4046-4052 (1984).
  50. G. S. Ullmann, K. Ullmann, R. M. Lindner, and G. D. J. Phillies, “Probe Diffusion of Polystyrene Latex Spheres in Poly-(ethylene oxide):Water.”, J. Phys. Chem. 89, 692-700 (1985).
  51. G. D. J. Phillies, “Diffusion of Bovine Serum Albumin in a Neutral Polymer Solution”, Biopolymers 24, 379-386 (1985).
  52. G. D. J. Phillies, G. S. Ullmann, K. Ullmann, and T.-H. Lin, “Phenomenological Scaling Laws for ‘Semidilute’ Macromolecule Solutions from Light Scattering by Optical Probe Particles”, J. Chem. Phys. 82, 5242-5246 (1985).
  53. K. Ullmann, G. S. Ullmann, and G. D. J. Phillies, “Optical Probe Study of a Nonentangling Macromolecule Solution—Bovine Serum Albumin:Water”, J. Colloid Interface Sci. 105, 315-324 (1985).
  54. G. D. J. Phillies, “Comment on ’Critical Behavior of a Binary Mixture of Protein and Salt Water’ ”, Phys. Rev. Letters 55, 1341 (1985).
  55. J. M. Carter and G. D. J. Phillies, “Second-Order Concentration Correction to the Mutual Diffusion Coefficient of a Suspension of Hard Brownian Spheres”, J. Phys. Chem. 89, 5118-5124 (1985).
  56. G. D. J. Phillies, “Comment on ’Remarks on the Mutual Diffusion Coefficient of Brownian Particles’ ”, J. Chem. Phys. 84, 5972-5973 (1986).
  57. G. D. J. Phillies, “Elastic and Quasi-Elastic Light Scattering by Solutions and Suspensions”, in Treatise in Analytical Chemistry Second Edition Part I. Volume 8, P. J. Elving, Editor. Wiley-Interscience, New York, (1986), pp. 1-88.
  58. G. D. J. Phillies, “Universal Scaling Equation for Self-Diffusion by Macromolecules in Solu-tion”, Macromolecules 19, 2367-2376 (1986).
  59. G. S. Ullmann and G. D. J. Phillies, “Diffusion of Particles in a Fluctuating Fluid with Creeping Flows”, J. Phys. Chem. 90, 5473-5477 (1986).
  60. G. D. J. Phillies, “Dynamics of Polymers in Concentrated Solution: The Universal Scaling Equation Derived”, Macromolecules 20, 558-564 (1987).
  61. G. D. J. Phillies, “The Universal Scaling Equation for Macromolecule Self-Diffusion”, Polymer Preprints 28, 356-357 (1987).
  62. G. D. J. Phillies, “A Novel Representation of the Dense-Fluid Pressure Equation”, J. Chem. Phys. 86 4711-4712 (1987).
  63. G. D. J. Phillies, C. Malone, K. Ullmann, G. S. Ullmann, J. Rollings, and L.-P. Yu, “Probe Diffusion in Solutions of Long-Chain P olyelectrolytes”, Macromolecules 20, 2280-2289 (1987).
  64. G. D. J. Phillies, “Numerical Interpretation of the Concentration Dependence of Micelle Diffusion Coefficients”, J. Coll. Interface Sci. 119, 518-523 (1987).
  65. G. D. J. Phillies and P. Peczak, “The Ubiquity of Stretched-Exponential Forms in Polymer Dynamics”, Macromolecules 21, 214-220 (1988).
  66. G. D. J. Phillies, “Attracting Tomorrow’s Physicists Today”, Physics Today 41, 13-15 (1988).
  67. G. D. J. Phillies, “Upon the Application of Cumulant Analysis to the Interpretation of Quasielastic Light Scattering Spectra”, J. Chem. Phys. 89, 91-99 (1988).
  68. G. D. J. Phillies, “The Hydrodynamic Scaling Model for Polymer Dynamics”, Nuclear Physics B (Proceedings Third University of California Conference on Statistical Mechanics) 5A, 214-219 (1988).
  69. G. D. J. Phillies, “Quantitative Prediction of a in the Scaling Law for Self-Diffusion”, Macro-molecules 21, 3101-3106 (1988).
  70. G. D. J. Phillies, “Applications of Quasi-Elastic Light Scattering Spectroscopy in Polymer Characterization”, J. Appl. Polym. Sci.: Applied Polym. Symp. 43, 275-304 (1989)
  71. G. D. J. Phillies, “The Hydrodynamic Scaling Model for Polymer Self-Diffusion”, J. Phys. Chem. 93, 5029-5039 (1989).
  72. G. D. J. Phillies, J. Gong, L. Li, A. Rau, K. Zhang, L.-P. Yu, and J. Rollings, “Macroparticle Diffusion in Dextran Solutions”, J. Phys. Chem. 93, 6219-6223 (1989).
  73. G. D. J. Phillies, T. Pirnat, M. Kiss, N. Teasdale, D. Maclung, H. Inglefield, C. Malone, A. Rau, L.-P. Yu, and J. Rollings, “Probe Diffusion in Solutions of Low-Molecular-Weight Polyelectrolytes”, Macromolecules 22, 4068-4075 (1989).
  74. G. D. J. Phillies, “Chain Architecture in the Hydrodynamic Scaling Model”, Macromolecules 23, 2742-2748 (1990).
  75. G. S. Ullmann, K. Ullmann, R. M. Lindner, and G. D. J. Phillies, “Probe Diffusion of Polystyrene Latex Spheres in Poly-(ethylene oxide):Water.”, reprint in B. Chu (Editor), Quasielastic Light Scattering by Macromolecular, Supramolecular, and Fluid Systems, SPIE Milestone Series, Volume MS12 1990.
  76. G. D. J. Phillies, “Quasi-elastic Light Scattering”, Analytical Chemistry 62, 1049A-1057A (1990).
  77. G. D. J. Phillies, “Convergence of the Spherical Harmonic Expansions for the Evaluation of Hard Sphere Cluster Integrals”, Journal of Statistical Physics 62, 577-585 (1991).
  78. G. D. J. Phillies, “Mesoparticle Diffusion in Biopolymer and Polymer Solutions”, Biochemical Society. Transactions. 78, 481 (1991).
  79. G. D. J. Phillies, “The Hydrodynamic Scaling Model for Polymer Dynamics”, Journal of Non-Crystalline Solids 131-133, 612-619 (1991).
  80. H. Yu, K. Binder, K. Schweizer, G. Mckenna, M. Muthukumar, H. Sillescu, E.J. Donth, L. Struik, T.P. Lodge, G. Phillies, D. Richter, G. Berry, M. Adam, G. Felcher, K. Ngai, C. Okonski, R. Hilfer, G. Grest, C. Dymek, C.H. Wang, “Polymer Diffusion, Dynamics And Viscoelasticity – Discussion”, Journal of Non-Crystalline Solids 131-133, 742-754 (1991).
  81. K. Nelson, H. Spiess, C.J. Montrose, E. Roessler, C.A. Angell, D. Richter, G. Meier, K. Binder, M. Ediger, H. Sillescu, J. Reiter, R. Hohler, G. Grest, R. Chamberlin, L. Dissado, G. Phillies, R. Schilling, J. Vanturnhout, R. Hilfer, M. Dzugutov, “Viscous-Liquids And Glass Transitions – The Linear Response Regime” Journal Of Non-Crystalline Solids 131-133, 378-394 (1991).
  82. G. D. J. Phillies, A. Saleh, L. Li, Y. Xu, D. Rostcheck, M. Cobb, and T. Tanaka, “Tempera¬ture Dependence of Probe Diffusion in Solutions of Low-Molecular-Weight Polyelectrolytes”, Macromolecules 24, 5299-5304 (1991).
  83. G. D. J. Phillies, “Self Diffusion by Giant Micelles and Random- Coil Polymers is Fundamen-tally Similar”, Langmuir 7, 2072-2075 (1991).
  84. G. D. J. Phillies, “Probe Diffusion in Polymer Solutions”, (Proc. SPIE meeting on Light Scattering from Multicomponent Systems, Los Angeles, January 1991), K. S. Schmitz, Ed. SPIE, Vol. 1430, 118-131 (1991).
  85. G. D. J. Phillies, “Mesoparticle Diffusion in Biopolymer and Polymer Solutions” in Laser Light Scattering in Biochemistry (Proc. Cambridge Conference Sept. 12-14, 1990), S. E. Harding, D. B. Sattelle, and V. A. Bloomfield, Eds., Royal Society of Chemistry Information Services, 112-136 (1992).
  86. G. D. J. Phillies and C. A. Quinlan, “Glass Temperature Effects Effects in Probe Diffusion in Dextran Solutions”, Macromolecules 25, 3110-3116 (1992).
  87. G. D. J. Phillies and D. Clomenil, “Lineshape and Linewidth Effects in Optical Probe Studies of Glass-Forming Liquids”, J. Phys. Chem., 96, 4196-4200 (1992).
  88. G. D. J. Phillies, D. Rostcheck, and S. Ahmed, “Probe Diffusion in Intermediate Molecular Weight Polyelectrolytes: Temperature Dependence”, Macromolecules, 25, 3689-3694 (1992).
  89. G. D. J. Phillies, W. Brown, and P. Zhou, “Chain and Sphere Diffusion in Polyisobutylene— CHCl3: a Reanalysis”, Macromolecules, 25 4948-4954 (1992).
  90. G. D. J. Phillies, “Range of Validity of the Hydrodynamic Scaling Model”, J. Phys. Chem., 96, 10061-10066 (1992).
  91. G. D. J. Phillies and D. Clomenil, “Probe Diffusion in Polymer Solutions under Theta and Good Conditions”, Macromolecules, 26, 167-170 (1993).
  92. G. D. J. Phillies and P. C. Kirkitelos, “Higher-Order Hydrodynamic Interactions in the Cal-culation of Polymer Transport Properties”, Journal of Polymer Science B: Polymer Physics, 31, 1785-1797 (1993).
  93. G. D. J. Phillies, J. Stott, and S. Z. Ren, “Probe Diffusion in the Presence of Nonionic Amphiphiles: Triton X-100”, Journal of Physical Chemistry, 97, 11563-11568 (1993).
  94. G. D. J. Phillies, C. Richardson, C. A. Quinlan, and S.Z. Ren, “Transport in Intermediate and High Molecular Weight Hydroxyproylcellulose/Water Solutions”, Macromolecules, 26, 6849- 6858 (1993).
  95. G. D. J. Phillies, J. Stott, K. Streletzky, S.Z. Ren, N. Sushkin, and C. A. Richardson, “Optical Probe Studies of Surfactant Solutions”, Surfactants and Association Colloids: The Rheology of Surfactant Solutions, C. A. Herb and R. K. Prud’homme, Eds., ACS Books (Washington), pp. 239-249 (1994).
  96. G. D. J. Phillies and C. A. Quinlan, “Analytic Structure of the Solutionlike-Meltlike Transition in Polymer Solution Dynamics”, Macromolecules, 28, 160-164 (1995).
  97. G. D. J. Phillies and J. Stott, “Wavelet Analysis of Ising Model Spin Dynamics”, Computers in Physics, 9, 97-107 (1995)
  98. L.-S. Luo, G. D. J. Phillies, L. Colonna-Romano, and H. Gould, “Brownian Motion on a Square Lennard-Jones Lattice: Trapping, Hopping, and Diffusion”, Physical Review E, 51, 43-52 (1995).
  99. K. Streletzky and G. D. J. Phillies, “Temperature Dependence of Triton X-100 Micelle Size and Hydration”, Langmuir, 11, 42-47 (1995).
  100. G. D. J. Phillies, “Dynamics of Brownian Probes in the Presence of Mobile or Static Obsta-cles”, Journal of Physical Chemistry, 99, 4265-4272 (1995).
  101. N. Sushkin and G. D. J. Phillies, “Charged Dielectric Spheres in Electrolyte Solutions: In¬duced Dipoles and Counterion Exclusion Effects”, Journal of Chemical Physics, 103, 4600¬4612 (1995).
  102. G. D. J. Phillies, R. H. Smith, K. Strang, and N. Sushkin, “Aggregation Number and Hydro-dynamic Hydration Levels of Brij-35 Micelles from Optical Probe Studies”, Langmuir, 11, 3408-3416 (1995).
  103. G. D. J. Phillies and Jonathan Stott, “Mori-Zwanzig-Daubechies Decomposition of Ising Model Monte Carlo Dynamics”, Computers in Physics, 9, 225-234 (1995).
  104. G. D. J. Phillies, “Hydrodynamic Scaling of Viscosity and Viscoelasticity of Polymer So-lutions, Including Chain Architecture and Solvent Quality Effects”, Macromolecules, 28, 8198-8208 (1995).
  105. G. D. J. Phillies, “Wavelets – a New Alternative to Fourier Transforms”, Computers in Physics, 10, 247-252 (1996).
  106. L. Luo and G. D. J. Phillies, “Brownian Motion through a Two- Dimensional Glass: Trapping, Hopping, and Diffusion”, Journal of Chemical Physics, 105, 598-604 (1996).
  107. G. D. J. Phillies and J. Yambert, “Solvent and Solute Effects on Hydration and Aggregation of Triton X-100 Micelles”, Langmuir, 12, 3431-3436 (1996).
  108. K. L. Ngai and G. D. J. Phillies, “Coupling Model Analysis of Polymer Dynamics in Solution: Probe Diffusion and Viscosity”, Journal of Chemical Physics, 105 8385-8397 (1996).
  109. G. D. J. Phillies, “On the Temporal Resolution of Multitau Digital Correlators”, Review of Scientific Instruments, 67, 3423-3427 (1996).
  110. G. D. J. Phillies and M. Lacroix, “Probe Diffusion in Hydroxypropylcellulose-Water: Radius and Line-Shape Effects in the Solutionlike Regime”, Journal of Physical Chemistry B, 101, 39-47 (1997).
  111. G. D. J. Phillies, “Quantitative Experimental Confirmation of the Chain Contraction Assump-tion of the Hydrodynamic Scaling Model”, Journal of Physical Chemistry B, 101, 4226-4231 (1997).
  112. L. Gora, K. A. Streletzky, R. W. Thompson, and G. D. J. Phillies, “Study of the Crystalliza¬tion of Zeolite NaA by Quasi-Elastic Light-Scattering Spectroscopy and Electron Microscopy”, Zeolites, 18, 119-131 (1997).
  113. G. D. J. Phillies, M. Lacroix, and J. Yambert, “Probe Diffusion in Sodium Polystyrene Sulfonate – Water: Experimental Determination of Sphere-Chain Binary Hydrodynamic In-teractions”, Journal of Physical Chemistry B, 101, 5124-5130 (1997).
  114. L. Gora, K. A. Streletzky, R. W. Thompson, G. D. J. Phillies, “Study of the Effects of Initial-Bred Nuclei on Zeolite NaA Crystallization by Quasi-Elastic Light Scattering Spectroscopy and Electron Microscopy”, Zeolites, 19, 98-106 (1997).
  115. K. A. Streletzky and G. D. J. Phillies, “Translational Diffusion of Small and Large Mesoscopic Probes in Hydroxypropylcellulose:Water in the Solutionlike Regime”, Journal of Chemical Physics, 108, 2975-2988 (1998).
  116. G. D. J. Phillies, “Derivation of the Universal Scaling Equation of the Hydrodynamic Scaling Model via Renormalization Group Analysis”, Macromolecules, 31, 2317-2327 (1998).
  117. K. A. Streletzky and G. D. J. Phillies, “Relaxational Mode Structure for Optical Probe Diffusion in High Molecular Weight Hydroxypropylcellulose”, Journal of Polymer Science, 36, 3087-3100 (1998).
  118. K. A. Streletzky and G. D. J. Phillies, “Confirmation of the Reality of the Viscoelastic Solutionlike-Meltlike Transition via Optical Probe Diffusion”, Macromolecules, 32, 145-152 (1999).
  119. K. A. Streletzky and G. D. J. Phillies, “Coupling Analysis of Probe Diffusion in High Molecu-lar Weight Hydroxypropylcellulose”, Journal of Physical Chemistry B, 103, 1811-1820 (1999).
  120. G. D. J. Phillies, “Polymer Solution Viscoelasticity from Two-Parameter Temporal Scaling”, Journal of Chemical Physics, 110, 5989-5992 (1999).
  121. N. V. Sushkin, D. Clomenil, John Ren, and G. D. J. Phillies, “Microscopic Parameters of Sodium Dodecyl Sulfate Micelles from Optical Probe Studies and Quasi-Elastic Light Scat-tering”, Langmuir 15, 3492-3498 (1999).
  122. G. D. J. Phillies, “Temporal Scaling Analysis: Viscoelastic Properties of Star Polymers”, Journal of Chemical Physics, 111 , 8144-8150 (1999).
  123. K. A. Streletzky and G. D. J. Phillies, “Optical Probe Study of Solutionlike and Meltlike Solutions of High Molecular Weight Hydroxypropylcellulose”, Scattering from Polymers, B. S. Hsiao, Ed., American Chemical Society Symposium Series, 739, 297-316 (2000).
  124. G. D. J. Phillies and K. A Streletzky, “Microrheology of Complex Fluids Via Observation of Tracer Mesoparticles”, in Recent Research Developments in Physical Chemistry, Transworld Research Network, 5, 269-285 (2001).
  125. G. D. J. Phillies, “Is the Polyelectrolyte Extraordinary Phase a Cluster-Forming Glass?”, Macromolecules, 34, 8745-8751 (2001).
  126. G. D. J. Phillies, “Temporal Scaling Analysis: Linear and Crosslinked Polymers”, Journal of Polymer Science B, 40, 375-386 (2002).
  127. G. D. J. Phillies, “Low-Shear Viscosity of Non-Dilute Polymer Solutions from a Generalized Kirkwood-Riseman Model”, Journal of Chemical Physics, 116, 5857-5866 (2002).
  128. G. D. J. Phillies, “Viscosity of Hard Sphere Suspensions”, Journal of Colloid and Interface Science, 248, 528-529 (2002).
  129. G. D. J. Phillies, “Self-Consistency of Hydrodynamic Models for the Low-Shear Viscosity and the Self-Diffusion Coefficient”, Macromolecules, 35, 7414-7418 (2002).
  130. G. D. J. Phillies, R. O’Connell, P. Whitford, and K. A. Streletzky, “Mode Structure of Diffusive Transport in Hydroxypropylcellulose:Water”, Journal of Chemical Physics, 119, 9903-9913 (2003).
  131. G. D. J. Phillies, “Self and Tracer Diffusion of Polymers in Solution”, arXiv:cond-mat/0403109 (1-530(3 March 2004).
  132. G. D. J. Phillies, “Neutral Polymer Slow Mode May Signify an Incipient Growth-Frustrated Domain-Forming Glass”, Physical Review E, 69, 011801 1-9 (2004).
  133. G. D. J. Phillies, “Viscosity of Suspensions of Hard and Soft Spheres”, arXiv:cond-mat/0403305 (1-8) (11 March 2004).
  134. S. C. Merriam and G. D. J. Phillies, “Fourth-Order Hydrodynamic Contribution to the Poly¬mer Self-Diffusion Coefficient”, Journal of Polymer Science B, 42, 1663-1670 (2004).
  135. G. D. J. Phillies, “Phenomenology of Polymer Single-Chain Diffusion in Solution”, in Statistics of Linear Polymers in Disordered Media, B. Chakrabarti (Editor) Elsevier: Burlington, MA (2005), pp. 305-356.
  136. P. C. Whitford and G. D. J. Phillies, “Diverging Static Length Scale and Frustrated Clusters in Cold Lennard-Jones Fluids”, arXiv:cond-mat/0402288 (1-4) (2004).
  137. P. C. Whitford and G. D. J. Phillies, “Extended-Range Order, Diverging Static Length Scales, and Local Structure Formation in Cold Lennard-Jones Fluids”, Journal of Chemical Physics 122, 044508 1-10 (2005).
  138. R. O’Connell, H. Hanson, and G. D. J. Phillies, “Neutral Polymer Slow Mode and Its Rheo-logical Correlate”, Journal of Polymer Science B: Polymer Physics, 43, 323-333 (2005).
  139. G. D. J. Phillies, “Interpretation of Light Scattering Spectra in Terms of Particle Displace-ments”, arXiv:cond-mat/0502185 (2005).
  140. G. D. J. Phillies, “Interpretation of Light Scattering Spectra in Terms of Particle Displace-ments”, Journal of Chemical Physics, 122 224905 1-8 (2005).
  141. P. C. Whitford and G. D. J. Phillies, “Enhanced Septahedral Ordering in Cold Lennard-Jones Fluids”, arXiv:cond-mat/0503488 (2005).
  142. P. C. Whitford and G. D. J. Phillies, “Enhanced Septahedral Ordering in Cold Lennard-Jones Fluids”, Physical Review E, 72, 021203 1-11 (2005).
  143. G. D. J. Phillies, “Interpretation of Diffusing Wave Spectra in Nontrivial Systems”, arXiv:cond-mat/0505075 (2005).
  144. G. D. J. Phillies, “Non-Invertibility of Multiple-Scattered QELSS Spectra”, arXiv:cond-mat/0509470 (2005).
  145. G. D. J. Phillies and Kiril Streletzky, “Dynamics of Semirigid Rod Polymers from Experimental Studies”, (book chapter) in Soft Condensed Matter: New Research Kathy I. Dillon, Ed. NovaScience Publishers (Hauppage, NY), 2007, pp. 291-335.
  146. G. D. J. Phillies, “Optical Probe Diffusion in Polymer Solutions”, arXiv:cond-mat.soft:0705.3222 (57 pages, 82 figures) (2007).
  147. G. D. J. Phillies, “Falsity of the Rouse Mode Solution of the Rouse and Zimm Models”, arXiv:cond-mat.soft 0907.4172 (2009).
  148. G. D. J. Phillies, “Polymer Segmental Cross-Correlations from Dielectric Relaxation Spectra of Block Copolymers”, arxiv:cond-mat.soft/0200952 (2011).
  149. G. D. J. Phillies, “Polymer Segmental Cross-Correlations from Dielectric Relaxation Spectra of Block Copolymers”, Physical Review E, 84 011807 (1-4) (2011)
  150. G. D. J. Phillies, “Interpretation of Pulsed-Field-Gradient NMR in Terms of Particle Dis-placements”, arxiv:cond-mat.soft/ (2011).
  151. G. D. J. Phillies, “Capillary Electrophoresis as a Fundamental Probe of Polymer Dynamics”, arXiv:cond-mat.soft 1102.5362v1 (2011).
  152. G. D. J. Phillies, “Capillary Zone Electrophoresis and Polymer Dynamics”, Electrophoresis, 33, 1008-1012 (2012) DOI: 10.1002/elps.201100498
  153. G. D. J. Phillies, “Position-Displacement Correlations in QELSS Spectra of Non-Dilute Col-loids”, Journal of Chemical Physics, 137, 124901 1-4 (2012)
  154. G. D. J. Phillies, “Probe Dynamics Constraints on Theoretical Models for Polymer Dynam-ics”, Journal of Chemical Physics, 137, 224905 1-8 (2012).
  155. G. D. J. Phillies, “Interpretation of Quasielastic Scattering Spectra of Probe Species in Com-plex Fluids”, arxiv:cond-mat.soft/1302.7009 (2013).
  156. G. D. J. Phillies, “Interpretation of Quasielastic Scattering Spectra of Probe Species in Com-plex Fluids”, Journal of Chemical Physics, 139, 034902 (2013).
  157. G. D. J. Phillies, “The VW Method, a Simple Alternative to the Wilson GF Method.“ arxiv:1306.5499 (2013).
  158. G. D. J. Phillies, “The Gaussian Diffusion Approximation for Complex Fluids is Generally Invalid”, arXiv:1406.4894 (2013).
  159. G. D. J. Phillies, “The Gaussian Diffusion Approximation is Generally Invalid in Complex Fluids”, Soft Matter, 11, 580-586 (2015). [Not the same paper as the arxiv.org paper above.]
  160. G. D. J. Phillies, “Diffusion on a Molecular Scale As Observed Using PGSE NMR”, Concepts in Magnetic Resonance A, 44, 1-15 (2015).
  161. G. D. J. Phillies, “Review: Dynamics of Crowded Macromolecules/Interacting Brownian Particles”, arXiv:1508.07465 (2015).
  162. Ryan McDonough, Rafael Cueto, George D. J. Phillies, Paul S. Russo, Derek Dorman, and Kiril A. Streletzky, “Fluorescent Labelling Can Alter Polymer Solution Dynamics”, Macromolecules, 48, 7245-7255 (2015).
  163. G. D. J. Phillies, “Interpretation of Fluorescence Correlation Spectra in Complex Fluids”, Biopolymers 105, 260-266 (2016) doi: 10.1002/bip.22802.
  164. G. D. J. Phillies, “Diffusion in Crowded Solutions”, Advances in Chemical Physics, 48, 277¬-358 (2016).
  165. G. D. J. Phillies, “The Hydrodynamic Scaling Model for the Dynamics of Non-Dilute Polymer Solutions: A Comprehensive Review”, arxiv.org/abs/1606.09302 (2016).
  166. George Phillies, “Win-Win Textbooks”, American Scientist 105, 3-3 (2017).
  167. G. D. J. Phillies, “Readings and Misreadings of J. Willard Gibbs’ Elementary Principles in Statistical Mechanics, arxiv.org/abs/1706.01500 (2017).
  168. G. D. J. Phillies, “FCS and RICS Spectra of Probes in Complex Fluids”, arxiv.org/abs/1706.01497 (2017).
  169. G. D. J. Phillies, “The Kirkwood-Riseman Model of Polymer Dynamics is Qualitatively Correct”, arxiv.org/abs/1801.06247 (2018).
  170. G. D. J. Phillies, “Hydrodynamic Mobilities in a Bar-Chain Polymer Model”, Journal of Non-Newtonian Fluid Mechanics 302, 104752 1-7 (2022).
  171. G. D. J. Phillies, “The Kirkwood-Riseman Model of Polymer Solution Dynamics is Qualitatively Correct”, Polymers 15, 1995 1-14 (2023) https://doi.org/10.3390/polym15091995.
  172. G. D. J. Phillies, “Simulational Tests of the Rouse Model”, Polymers 15, 2615 1-41 (2023).
  173. G. D. J. Phillies, “Review: Kirkwood–Riseman Model in Non-Dilute Polymeric Fluids”, Polymers 15, 3216 1- 50 (2023) ; https://doi.org/10.3390/polym15153216
  174. G. D. J. Phillies, “Diffusing Wave Microrheology in Polymeric Fluids”,Polymers 16, 1332 (2024).
  175. G. D. J. Phillies, “Dynamics of Unidentified Aerospace Phenomena”, SCU Review 6 (1), 9-13 (2025).
  176. G. D. J. Phillies, “Quantitative Interpretation of Simulated Polymer Mean-Square Displacements”, Polymers 17, 516 (2024); arXiv:2408.08480 (2024).
  177. G. D. J. Phillies, “Review: Mean-Square Displacements of Simulated Polymers”, Polymers 2025, 17, 1193 (1-30) (2025). https://doi.org/10.3390/polym17091193
  178. G. D. J. Phillies, “Mean-Square Displacement s of Polymers in Simulated Blend Melts”, Polymers 2025, 17, 3140 (1-21) (2025), https://doi.org/10.3390/polym17233140.
  179. G. D. J. Phillies, “An Alternative Approach to the Gravitational Quantization Problem”, International Journal of Quantum Foundations 12, 462-467 (2025).

Other Publications

  1. George D. J. Phillies, “The Puzzle of the Peregrinating Coach”, Baen’s Universe, 1 (1) June 2006 [short story].
  2. George D. J. Phillies, “America is Guilty of Torture”, Long Term View 6, 84-89 (2006), Massachusetts School of Law: Andover, MA [legal analysis].