Publications

The list below is definitive.  I haven't quite gotten around to providing links for all the earlier articles and I'm working to repair links which were broken by the journal servers.  Links to arXiv preprints are omitted if the published article is Open Access.  If you are struggling to get hold of anything, email me and I will send a PDF.

My Google Scholar profile is here.  My Web of Science™ profile is here.

My Erdős number is at most 4 (via Ray Goldstein or Howard Stone).  

My ORCID is 0000-0002-0189-2704 though I have not gotten around to registering publications.  

Some citation statistics are given at the end.

Some recent work that I'm proud of are Phys. Rev. Lett. 120, 158001 (2018) with Robin Ball and Ray Goldstein about tension transmission in yarns in which we describe a phase transition to a frictionally-jammed state that, arguably, explains why clothes don't fall apart [for an alternative but related explanation see Seguin and Crassous, Phys. Rev. Lett. 128, 078002 (2022)]; and in the same year Phys. Rev. Applied 9, 034012 (2018) with Sangwoo Shin and Howard Stone in which we identify a hitherto unsuspected diffusiophoretic pore-scale transport process for particulate soil removal that might resolve the 'stagnant core problem' -- a long-standing mystery in laundry detergency.  In this same area also the recent experimental confirmation in Phys. Rev. Fluids 9, 014201 (2024) of a diffusiophoretic 'action-at-a-distance' effect in crossed salt gradients, that I predicted theoretically from the Nernst-Planck equations in Phys. Rev. Lett. 124, 248004 (2020).

I'm also pretty pleased with the work with Hartree on mixed surfactant micellisation that got published as J. Phys. Chem. B 125, 5893-90 (2021) -- it is a fusion of 1980s thermodynamics models with modern (2020s) coarse-grained surfactant simulations.  

The most impactful early papers are Europhys. Lett. 30, 191 (1995) and J. Chem. Phys. 107, 4423 (1997), with Pep Español and Rob Groot respectively, on dissipative particle dynamics (DPD); and before that Europhys. Lett. 20, 559 (1992) with Henk Lekkerkerker, Wilson Poon, Peter Pusey and Alain Stroobants introducing the free volume theory for the phase behavior of colloidal suspensions and predicting the existence of a three-phase region in the phase diagram where a colloidal liquid, gas, and an ordered crystal phase coexist.  This prediction was subsequently experimentally verified -- "Thermodynamics, it works, b***es !" (with apologies to xkcd cartoon #54).

Peer reviewed – under consideration

117. Polarisable soft solvent models with applications in dissipative particle dynamics, S. Chiacchiera, P. B. Warren, A. J. Masters, M. A. Seaton, see arXiv:2404.08373.

116. Diffusive evaporation dynamics in polymer solutions is ubiquitous, M. Huisman, W. C. K. Poon, P. B. Warren, S. Titmuss, and D. Marenduzzo, submitted (2023).

115. Inertial dynamical transitions drive particle capture and filtration, J. F. Robinson, P. B. Warren, M. R. Turner, and R. P. Sear, see arXiv:2310.03474.

114. Gap-dependent hydrodynamic lubrication in conformal contacts, J. A. Richards, P. B. Warren, and W. C. K. Poon, submitted (2023); see arXiv:2306.17694.

113. Anomalous scaling for hydrodynamic lubrication of conformal surfaces, J. A. Richards, P. B. Warren, D. J. M. Hodgson, A. Lips, and W. C. K. Poon, submitted (2023); see arXiv:2306.17696.

112. Poisson-Nernst-Planck charging dynamics of an electric double layer capacitor: symmetric and asymmetric binary electrolytes, I. Palaia, A. J. Asta, P. B. Warren, B. Rotenberg, and E. Trizac, submitted (2023); see arXiv:2303.07859.

111. Charging dynamics of electric double layer nanocapacitors in mean-field, I. Palaia, A. J. Asta, P. B. Warren, B. Rotenberg, and E. Trizac, submitted (2023); see arXiv.2301.00610.

Peer reviewed – published

110. Simulating micelle self-assembly to assess potential for viscosity build in surfactant formulations, E. Lavagnini, J. Booth, K. Helm, F. El-Benni, P. B. Warren, D. J. Bray, and R. L. Anderson, Front. Soft Matter 4, 1341445 (2024).

109. Colloidal diffusiophoresis in crossed electrolyte gradients: Experimental demonstration of an 'action at a distance' effect predicted by the Nernst-Planck equations, I. Williams, P. B. Warren, R. P. Sear, and J. L. Keddie, Phys. Rev. Fluids 9, 014201 (2024).

108. Can machine learning predict the phase behavior of surfactants?, J. C. R. Thacker, D. J. Bray, P. B. Warren, and R. L. Anderson, J. Phys. Chem. B 127, 3711-27 (2023).

107. Partial osmotic pressures of ions in electrolyte solutions and the Gibbs-Guggenheim uncertainty principle, P. B. Warren, Phys. Rev. E 107, 034606 (2023).

106. Phase behaviour of alkyl ethoxylate surfactants in a dissipative particle dynamics model, R. L. Anderson, D. S. D. Gunn, T. Taddese, E. Lavagnini, P. B. Warren, and D. J. Bray, J. Phys. Chem. B 127, 1674-87 (2023).

105. Modeling alkyl aromatic hydrocarbons with dissipative particle dynamics, D. J. Bray, R. L. Anderson, P. B. Warren, and K. Lewtas, J. Phys. Chem. B 126, 5351–61 (2022).

104. Systematic parameterization of ion-surfactant interactions in dissipative particle dynamics using Setschenow coefficients, E. Lavagnini, J. L. Cook, P. B. Warren, and C. A. Hunter, J. Phys. Chem. B 126, 2308-15 (2022).

103. Diffusion, phase behavior and gelation in a two-dimensional layer of colloids in osmotic equilibrium with a polymer reservoir, S. E. Griffiths, N. Koumakis, A. T. Brown, T. Vissers, P. B. Warren, and W. C. K. Poon, J. Chem. Phys. 155, 074903 (2021).

102. Critical micelle concentrations in surfactant mixtures and blends by simulation, A. Del Regno, P. B. Warren, D. J. Bray, and R. L. Anderson, J. Phys. Chem. B 125, 5893-90 (2021).

101. Translation of chemical structure into dissipative particle dynamics parameters for simulation of surfactant self-assembly, E. Lavagnini, J. L. Cook, P. B. Warren, and C. A. Hunter, J. Phys. Chem. B 125, 3942-52 (2021).

100. Wax formation in linear and branched alkanes with dissipative particle dynamics, D. J. Bray, R. L. Anderson, P. B. Warren, and K. Lewtas, J. Chem. Theory Comput. 16, 7109–22 (2020).

99. A surface site interaction point method for dissipative particle dynamics parametrization – application to alkyl ethoxylate surfactant self-assembly, E. Lavagnini, J. L. Cook, P. B. Warren, M. J. Williamson, and C. A. Hunter, J. Phys. Chem. B 124, 5047–55 (2020).

98. Non-Faradaic electric currents in the Nernst-Planck equations and non-local diffusiophoresis of suspended colloids in crossed salt gradients, P. B. Warren, Phys. Rev. Lett. 124, 248004 (2020); arXiv:1912.06016.

97. Recent advances in particle-based simulation of surfactants, T. Taddese, R. L. Anderson, D. J. Bray, and P. B. Warren, Curr. Opin. Colloid Interf. Sci. 48, 137-48 (2020).

96. Diffusiophoresis in ionic surfactants: effect of micelle formation, P. B Warren, S. Shin, and H. A Stone, Soft Matter 15, 278-88 (2018).

95. Trajectory reweighting for non-equilibrium steady states, P. B. Warren and R. J. Allen, Mol. Phys. 116, 3104-13 (2018); arXiv:1804.07614.

94. Micelle formation in alkyl sulphate surfactants using dissipative particle dynamics, R. L. Anderson, D. J. Bray, A. Del Regno, M. A. Seaton, A. S. Ferrante, and P. B. Warren, J. Chem. Theory Comput. 14, 2633-43 (2018).

93. Why clothes don't fall apart: tension transmission in staple yarns, P. B. Warren, R. C. Ball, and R. E. Goldstein, Phys. Rev. Lett. 120, 158001 (2018); arXiv:1804.07606; featured in phys.org and Physics World.

92. Cleaning by surfactant gradients: particulate removal from porous materials and the significance of rinsing in laundry detergency, S. Shin, P. B. Warren, and H. A. Stone, Phys. Rev. Applied 9, 034012 (2018); featured in Physics Focus, Physics World, New Scientist, and Cosmos.

91. Diffusiophoresis in non-adsorbing polymer solutions: the Asakura-Oosawa model and stratification in drying films, R. P. Sear and P. B. Warren, Phys. Rev. E 96, 062602 (2017); arXiv:1709.00704.

90. Diffusiophoresis in one-dimensional solute gradients, J. T. Ault, P. B. Warren, S. Shin, and H. A. Stone, Soft Matter 13, 9015-23 (2017).

89. Accumulation of colloidal particles in flow junctions induced by fluid flow and diffusiophoresis, S. Shin, J. T. Ault, P. B. Warren, and H. A. Stone, Phys. Rev. X 7,041038  (2017); featured in phys.org.

88. Dissipative particle dynamics: systematic parametrization using water-octanol partition coefficients, R. L. Anderson, D. J. Bray, A. S. Ferrante, M. G. Noro, I. P. Stott, and P. B. Warren, J. Chem. Phys. 147, 094503 (2017); arXiv:1706.10116.

87. Low-cost zeta potentiometry using solute gradients, S. Shin, J. T. Ault, J. Feng, P. B. Warren, and H. A. Stone, Adv. Mater. 29, 1701516 (2017).

86. Membraneless water filtration using CO2, S. Shin, O. Shardt, P. B. Warren, and H. A. Stone, Nat. Commun. 8, 15181 (2017); featured in phys.org and The Economist.

85. Perspective: dissipative particle dynamics, P. Español and P. B. Warren, J. Chem. Phys. 146, 150901 (2017); see also arXiv:1612.04574.

84. Challenges in microbial ecology: building predictive understanding of community function and dynamics, S. Widder et al., ISME J. 10, 2557-68 (2016); co-authored as an Isaac Newton Institute Fellow.

83. Sliding friction in the hydrodynamic lubrication regime for a power-law fluid, P. B. Warren; J. Phys.: Cond. Matter 29, 064005 (2016); arXiv:1502.01301.

82. Hydraulic droplet coarsening in open-channel capillaries, P. B. Warren, Phys. Rev. E 94, 053111 (2016); arXiv:1501.05220.

81. Toward a standard protocol for micelle simulation, M. A. Johnston, W. C. Swope, K. Jordan, P. B. Warren, M. G. Noro, D. J. Bray, and R. L. Anderson, J. Phys. Chem. B 120, 6337 (2016).

80. Segregated ice growth in a suspension of colloidal particles, J. M. H. Schollick, R. W. Style, A. Curran, J. S. Wettlaufer, E. R. Dufresne, P. B. Warren, K. P. Velikov, R. P. A. Dullens, and D. G. A. L. Aarts, J. Phys. Chem. B 16, 3941 (2016).

79. Size-dependent control of colloid transport via solute gradients in dead-end channels, S. Shin, E. Um, B. Sabass, J. T. Ault, M. Rahimi, P. B. Warren, and H. A. Stone, Proc. Natl. Acad. Sci. (USA) 113, 257 (2016).

78. Gibbs, Boltzmann, and negative temperatures, D. Frenkel and P. B. Warren, Am. J. Phys. 83, 163 (2015); arXiv:1403.4299.

77. Screening properties of four mesoscale smoothed charge models, with application to dissipative particle dynamics, P. B. Warren and A. Vlasov, J. Chem. Phys. 140, 084904 (2014); arXiv:1402.6157.

76. Malliavin weight sampling: a practical guide, P. B. Warren and R. J. Allen, Entropy 16, 221 (2014); arXiv:1312.7480.

75. Evaporation of drops on two parallel fibers: influence of the liquid morphology and fiber elasticity, C. Duprat, A. D. Bick, P. B. Warren, and H. A. Stone, Langmuir 29, 7857 (2013).

74. No-go theorem in many body dissipative particle dynamics, P. B. Warren, Phys. Rev. E 87, 045303 (2013); arXiv:1304.2183.

73. Screening properties of Gaussian electrolyte models, with application to dissipative particle dynamics, P. B. Warren, A. Vlasov, L. Anton, and A. J. Masters, J. Chem. Phys. 138, 204907 (2013); arXiv:1303.0891.

72. Phase behaviour and the random phase approximation for ultrasoft restricted primitive models, P. B. Warren and A. J. Masters, J. Chem. Phys. 138, 074901 (2013); arXiv:1302.5335.

71. Self-consistent field theory for the interactions between keratin intermediate filaments, A. Akinshina, E. Jambon-Puillet, P. B. Warren, and M. G. Noro, BMC Biophysics 6, 12 (2013); arXiv:1212.0677.

70. Malliavin weight sampling for sensitivity coefficients in Brownian dynamics simulations, P. B. Warren and R. J. Allen, Phys. Rev. Lett. 109, 250601 (2012); arXiv:1207.4691.

69. Steady-state parameter sensitivity in stochastic modeling via trajectory reweighting, P. B. Warren and R. J. Allen, J. Chem. Phys. 136, 104106 (2012); arXiv:1202.4704.

68. Shape of a ponytail and the statistical physics of hair fiber bundles, R. E. Goldstein, P. B. Warren, and R. C. Ball, Phys. Rev. Lett. 108, 078101 (2012); arXiv:1204.0371; featured in APS Physics, New York Times, National Public Radio, Canadian Broadcasting Corporation, BBC, Times of India, etc; and the 2012 Ig Nobel physics prize.

67. Biodiversity on island chains: neutral model simulations, P. B. Warren, Phys. Rev. E 82, 051922 (2010); arXiv:1004.4994.

66. Cells, cancer, and rare events: homeostatic metastability in stochastic non-linear dynamics models of skin cell proliferation, P. B. Warren, Phys. Rev. E. 80, 030903(R) (2009); arXiv:0903.0816. 

65. Flux networks in metabolic graphs, P. B. Warren, S. M. Duarte Queiros, and J. L. Jones, Phys. Biol. 6, 046006 (2009); arXiv:0808.0321.

64. Scaling theory for diffusion-limited cluster aggregation in a porous medium, P. B. Warren, Europhys. Lett. 83, 44002 (2008); arXiv:0805.0406.

63. The wall shear rate distribution for flow in random sphere packings, P. B. Warren and F. Stepanek, Phys. Rev. Lett. 100, 084501 (2008); arXiv:0706.2820.

62. Duality, thermodynamics, and the linear programming problem in constraint-based models of metabolism, P. B. Warren and J. L. Jones, Phys. Rev. Lett. 99, 108101 (2007); q-bio/0702021.

61. Flory-Huggins theory for the solubility of heterogeneously-modified polymers, P. B. Warren, Macromolecules 40, 6709 (2007); arXiv:0704.0707.

60. Exact results for noise power spectra in linear biochemical reaction networks, P. B. Warren, S. Tănasa-Nicola, and P. R. ten Wolde, J. Chem. Phys. 125, 144904 (2006); q-bio/0512041

59. Signal detection, modularity, and the correlation between extrinsic and intrinsic noise in biochemical networks, S. Tănasa-Nicola, P. B. Warren, and P. R. ten Wolde, Phys. Rev. Lett. 97, 068102 (2006); q-bio/0508027.

58. Phase separation, interface properties, and charge density waves in a simplified model for a macroion suspension, P. B. Warren, Phys. Rev. E 73, 011411 (2006); cond-mat/0506537; cond-mat/0006289.

57. Miscibility gap in the microbial fitness landscape, F. N. Braun, S. Paulsen, R. P. Sear, and P. B. Warren, Phys. Rev. Lett. 94, 178105 (2005).

56. Chemical models of genetic toggle switches, P. B. Warren and P. R. ten Wolde, J. Phys. Chem. B 109B, 6812 (2005); q-bio/0410003.

55. Simple representation of contact-line dynamics in a level-set model of an immiscible fluid interface, K. A. Smith, J. M. Ottino, and P. B. Warren, Ind. Eng. Chem. Res. 44, 1194 (2005).

54. Sampling rare switching events in biochemical networks, R. J. Allen, P. B. Warren, and P. R. ten Wolde, Phys. Rev. Lett. 94, 018104 (2005); q-bio/0406006.  <<< highly cited.

53. Statistical analysis of the spatial distribution of operons in the transcriptional regulation network of Escherichia coli, P. B. Warren and P. R. ten Wolde, J. Mol. Biol. 342, 1379 (2004); q-bio/0310029.

52. Multiscale modelling of human hair, R. L. C. Akkermans and P. B. Warren, Phil. Trans. R. Soc. Lond. A 362, 1783 (2004).

51. Late stage kinetics for various wicking and spreading problems, P. B. Warren, Phys. Rev. E. 69, 041601 (2004); cond-mat/0311216.

50. Enhancement of the stability of genetic switches by overlapping upstream regulatory domains, P. B. Warren and P. R. ten Wolde, Phys. Rev. Lett. 92, 128101 (2004); q-bio/0310041.

49. Complexation and phase behaviour of oppositely charged polyelectrolyte / macroion systems, R. J. Allen and P. B. Warren, Langmuir 20, 1997 (2004).

48. Vapour-liquid equilibrium with many-body dissipative particle dynamics, P. B. Warren, Phys. Rev. E 68, 066702 (2003); cond-mat/0306027.

47. Phase behaviour of oppositely-charged polymer / surfactant mixtures, R. J. Allen and P. B. Warren, Europhys. Lett. 64, 468 (2003).

46. A manifesto for one-body terms: the simplest of all many-body interactions?, P. B. Warren, J. Phys. Cond. Matt. 15, S3467 (2003).

45. Linking atomistic and mesoscale simulations of water soluble polymers, M. G. Noro, P. K. C. Paul, and P. B. Warren, J. Am. Chem. Soc. 125, 7190 (2003).

44. The physics of surfactant dissolution, P. B. Warren, P. Prinsen, and M. A. J. Michels, Phil. Trans. R. Soc. Lond. A 361, 665 (2003).

43. On the electrical double layer contribution to the surface tension of protein crystals, R. P. Sear and P. B. Warren, J. Chem. Phys. 117, 8074 (2002); cond-mat/0206067.

42. Mesoscale simulations of surfactant dissolution and mesophase formation, P. Prinsen, P. B. Warren, and M. A. J. Michels, Phys. Rev. Lett. 89, 148302 (2002); cond-mat/0204483.

41. Simple models for charge and salt effects in protein crystallisation, P. B. Warren, J. Phys. Cond. Mat. 14, 7617 (2002); cond-mat/0201418.

40. Hydrodynamic bubble coarsening in off-critical vapor-liquid phase separation, P. B. Warren, Phys. Rev. Lett. 87, 225702 (2001); cond-mat/0104314.

39. Moment free energies for polydisperse systems, P. Sollich, P. B. Warren, and M. E. Cates, Adv.Chem.Phys. 116, 265(2001); cond-mat/0003084 [recommended source].

38. Kinetics of surfactant dissolution, P. B. Warren and M. Buchanan, Curr. Opin. Colloid Interf. Sci. 6, 287 (2001).

37. Mesoscopic simulation of drops in gravitational and shear fields, A. T. Clark, M. Lal, J. N. Ruddock, and P. B. Warren, Langmuir 16, 6342 (2000).

36. Dissolution rates of pure non-ionic surfactants, B.-H. Chen, C. A. Miller, J. M. Walsh, P. B. Warren, J. N. Ruddock, P. R. Garrett, F. Argoul, and C. Leger, Langmuir 16, 5276 (2000).

35. A theory of void formation in charge-stabilised colloidal suspensions at low ionic strength, P. B. Warren, J. Chem. Phys. 112, 4683 (2000); cond-mat/9909235.

34. Kinetic theory for dissipative particle dynamics: the importance of collisions, A. J. Masters and P. B. Warren, Europhys. Lett. 48, 1 (1999); cond-mat/9903293.

33. Flow and dispersion in porous media: Lattice-Boltzmann and NMR studies, B. Manz, L. F. Gladden, and P. B. Warren, AIChE J. 45, 1845 (1999).

32. Fluid-fluid phase separation in hard spheres with a bimodal size distribution, P. B. Warren, Europhys. Lett. 46, 295 (1999); cond-mat/9807117.

31. Phase transition kinetics in polydisperse systems, P. B. Warren, Phys. Chem. Chem. Phys. 1, 2197 (1999).

30. Simulation of amphiphilic mesophases using dissipative particle dynamics, S. I. Jury, P. Bladon, M. E. Cates, S. Krishna, M. J. Hagen, J. N. Ruddock, and P. B. Warren, Phys. Chem. Chem. Phys. 1, 2051 (1999).

29. Reentrant melting in polydispersed hard spheres, P. Bartlett and P. B. Warren, Phys. Rev. Lett. 82, 1979 (1999); cond-mat/9902029.

28. Dissipative particle dynamics, P. B. Warren, Curr. Opin. Colloid Interf. Sci. 3, 620 (1998).

27. Characterisation of fluid flow through porous media using three-dimensional microimaging and pulsed gradient stimulated echo NMR, B. Manz, P. Alexander, P. B. Warren, and L. F. Gladden, Mag. Res. Im. 16, 673 (1998).

26. Combinatorial entropy and the statistical mechanics of polydispersity, P. B. Warren, Phys. Rev. Lett. 80, 1369 (1998).

25. Electroviscous transport problems via lattice Boltzmann, P. B. Warren, Int. J. Mod. Phys. C 8, 889 (1997).

24. Methods for microscopic characterisation of oral biofilms; analysis of colonisation, microstructure and molecular transport phenomena, S. Singleton, R. Treloar, P. B. Warren, G. K. Watson, R. Hodgson, and C. Allison, Adv. Dent. Res. 11, 133 (1997).

23. Fluid-solid transitions on walls in binary hard-sphere mixtures, A. D. Dinsmore, P. B. Warren, W. C. K. Poon, and A. Yodh, Europhys. Lett. 40, 337 (1997).

22. Dissipative particle dynamics: bridging the gap between atomistic and mesoscopic simulation, R. D. Groot and P. B. Warren, J. Chem. Phys. 107, 4423 (1997).  <<< highly cited.

21. Phase behaviour of colloid + binary polymer mixtures – theory, P. B. Warren, Langmuir 13, 4588 (1997).

20. Simplified mean field theory for polyelectrolyte phase behaviour, P. B. Warren, J. Physique II 7, 343 (1997).

19. A mathematical model for K+ diffusion in dentinal tubules, W. J. Stead, R. Orchardson, and P. B. Warren, Archs oral Biol. 41, 679 (1996); also Archs oral Biol. 39, 145S (1994).

18. Phase separation in mixtures of polysaccharides and proteins, R. Hoskins, I. D. Robb, P. A. Williams, and P. B. Warren, J. Chem. Soc. Faraday Trans. 92, 4515 (1996).

17. Summation of electrostatic interactions in two dimensional periodic systems, A. T. Clark, T. J. Madden, and P. B. Warren, Mol. Phys. 87, 1063 (1996); see also erratum Mol. Phys. 92, 947 (1997).

16. The effect of polymer non-ideality in a colloid + polymer mixture, P. B. Warren, S. M. Ilett, and W. C. K. Poon, Phys. Rev. E 52, 5205 (1995).

15. Statistical mechanics of dissipative particle dynamics, P. Español and P. B. Warren, Europhys. Lett. 30, 191 (1995).  <<< highly cited.

14. Convection limited aggregation, P. B. Warren, R. C. Ball, and A. Boelle, Europhys. Lett. 29, 339 (1995).

13. Phase separation in concentrated mixtures of polymers and surfactants, I. D. Robb, P. A. Williams, P. B. Warren, and R. Tanaka, J. Chem. Soc. Faraday Trans. 91, 3901 (1995).

12. Crystallisation of molecular liquids through shear induced nucleation, R. A. Gray, P. B. Warren, S. Chynoweth, Y. Michopoulos, and G. S. Pawley, Proc. R. Soc. Lond. A 448, 113 (1995).

11. Hydrodynamics of fractal aggregates, P. B. Warren, Il Nuovo Cimento 16, 1231 (1994).

10. Phase behaviour of hard sphere mixtures, W. C. K. Poon and P. B. Warren, Europhys. Lett. 28, 513 (1994).

9. Phase behaviour of polymers with concentrated dispersions of surfactants, S. M. Clegg, P. A. Williams, P. B. Warren, and I. D. Robb, Langmuir 10, 3390 (1994).

8. Hydrodynamic behaviour of lattice Boltzmann and lattice BGK models, O. Behrend, R. Harris, and P. B. Warren, Phys. Rev. E 50, 4586 (1994); comp-gas/9308001.

7. Depletion effect in a model lyotropic liquid crystal - theory, P. B. Warren, J. Physique I 4, 237 (1994).

6. A scaling correction in cluster-cluster aggregation, P. B. Warren, J. Physique I 3, 1509 (1993).

5. Phase behaviour of colloid + polymer mixtures, H. N. W. Lekkerkerker, W. C. K. Poon, P. N. Pusey, A. Stroobants, and P. B. Warren, Europhys. Lett. 20, 559 (1992). <<< highly cited.

4. Real space renormalisation scheme for reaction limited cluster aggregation, P. B. Warren, Phys. Rev. A 44, 7991 (1991).

3. Algorithm effects in reaction limited cluster aggregation, P. B. Warren, Phys. Rev. A 41, 4524 (1990).

2. Anisotropy and the approach to scaling in monodisperse reaction limited cluster-cluster aggregation, P. B. Warren and R. C. Ball, J. Phys. A: Math. Gen. 22, 1405 (1989).

1. The least squares method of cave survey data reduction based on a microcomputer, S. Kelly and P. B. Warren, Trans. British Cave Research Assoc. 15, 29 (1988) [PDF 2343k].

Non peer reviewed

6. Revisiting Riccioli’s free-fall calculations, P. B. Warren, Physics Today 66(3), 8 (March 2013); arXiv:1303.5554.

5. News and views - Electrifying effects in colloids, P. B. Warren, Nature 429, 822 (2004).

4. Application of dissipative particle dynamics to materials physics problems in polymer and surfactant science, M. G. Noro, F. Meneghini, and P. B. Warren, in Mesoscale Phenomena in Fluid Systems, eds. F. Case and P. Alexandridis, ACS Symposium Series 861 (ACS, 2003).

3. 5th Liquid Matter Conference (Konstanz, Sept 14-18, 2002), P. B. Warren, Appl. Rheol. 12, 312 (2002).

2. Statistical mechanics in polydisperse systems, P. B. Warren; in Structure And Dynamics Of Materials In The Mesoscopic Domain – Proceedings Of The Fourth Royal Society -Unilever Indo-UK Forum, eds. B. D. Kulkarni, M. Lal and R. A. Mashelkar (Imperial College Press, 1999).

1. A note on delta-star transformations in cave surveying, P. B. Warren, Trans. British Cave Research Assoc. 17, 135 (1990) [PDF 735k].

Patents

3. Estimating properties of surfactant mixtures, P. B. Warren, A. Del Regno, D. J. Bray and R. L. Anderson, UK Patent Application No. GB2101749.6.

2. Methods of particle manipulation and analysis, J. T. Ault, S. Shin, H. A. Stone, J. Feng and P. B. Warren, US Patent App. 16/210,760 (2018).

1. Gradient induced particle motion in suspensions, O. Shardt, S. Shin, S. Shim, P. B. Warren and H. A. Stone, US Patent 11,007,500 (2021).

Citation statistics (mid-January 2024)

WoS = Web of Science (Clarivate Analytics);
GS  = Google Scholar

                  WoS     GS

  h-index          41     46

  total cites   11940  15755

22. DPD (1997)   3644   4922

15. DPD (1995)   2310   3229

 5. FVT (1992)    876   1134

54. FFS (2005)    394    559

DPD = dissipative particle dynamics; FVT = (colloid/polymer) free volume theory; FFS = forward-flux sampling.  Numbers refer to publication list.