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74. “Effects of human fibronectin and human serum albumin sequential adsorption on pre-osteoblastic cell adhesion”, M. Hindie, E. Camand, R. Agniel, F. Carreiras, P. R. Van Tassel, and E. Pauthe, Biointerpases, 2014, in press.

73. “Nanofilm biomaterials: dual control of mechanical and bioactive properties”, E. Pauthe and P. R. Van Tassel, Layer-by-layer films for biomedical applications (Wiley-VCH), 2014, in press.

72. “Nanotechnolgy in medicine: nanofilm biomaterials”, P. R. Van Tassel, Yale Journal of Biology and Medicine, 2013, 86, 527.

71. “Carbon nanotube bundling: influence on layer-by-layer assembly and antimicrobial activity”, S. Aslan, J. Määttä, B. Z. Haznedaroglu, L. D. Pfefferle, M. Elimelech, E. Pauthe, M. Sammalkorpi, and P. R. Van Tassel, Soft Matter, 2013, 9, 2136.

70. “Porous nanofilm biomaterials via templated layer-by-layer assembly”, C. Wu, S. Aslan, A. Gand, J. Wolenski, E. Pauthe, and P. R. Van Tassel, Advanced Functional Materials, 2013, 23, 66.

69. “Carbon nanotube based antimicrobial biomaterials formed via layer-by-layer assembly with polypeptides”, S. Aslan, M. Deneufchatel, S. Hashmi, N. Li, L. D. Pfefferle, M. Elimelech, E. Pauthe, and P. R. Van Tassel, Journal of Colloid and Interface Science, 2012, 388, 268.

68. “Polyelectrolyte adsorption and layer-by-layer assembly: electrochemical control”, P. R. Van Tassel, Current Opinion in Colloid and Interface Science, 2012, 17, 106-113.

67. “Molecular recognition effects in atomistic models of imprinted polymers”, E. M. A. Dourado, C. Herdes, P. R. Van Tassel, and L. Sarkisov, International Journal of Molecular Science, 2011, 12, 4781.

66. “Nanofilm biomaterials: localized cross-linking to optimize mechanical rigidity and bioactivity”, J. A. Phelps, M. Hindie, M.-C. Degat, E. Pauthe, and P. R. Van Tassel, Langmuir, 2011, 27, 1123.

65. “Pre-osteoblasts on poly(L-lactic acid) and silicon oxide: influence of fibronectin and albumin adsorption”, M. Hindie, M.-C. Degat, F. Gaudiere, O. Gallet, P. R. Van Tassel, and E. Pauthe, Acta Biomaterialia, 2011, 7, 387.

64. “Antimicrobial biomaterials based on carbon nanotubes dispersed in poly(lactic-co-glycolic acid)”, S. Aslan, C. Zoican Loebick, S. Kang, M. Elimelech, L. D. Pfefferle, and P. R. Van Tassel, 2010, Nanoscale, 2, 1789.

63. “Biodegradable poly(lactide-co-glycolide) nanoparticle assembly for continuous release of bioactive agents from medical devices”,  C. T. Lo , P. R. Van Tassel, and W. M. Saltzman, 2010, Biomaterials, 31, 3631.

62. “Influence of charged nanoparticles on colloidal forces: a molecular simulation study”, B. Fazelabdolabadi, J. Y. Walz, and P. R. Van Tassel, 2009, Journal of Physical Chemistry B, 113, 13860.

61. “Simultaneous release of multiple molecules from poly(lactide-co-glycolide) nanoparticles assembled onto medical devices”, C. T. Lo, P. R. Van Tassel, and W. M. Saltzman, 2009, Biomaterials, 30, 4889.

60. “Polyelectrolyte adsorption kinetics under an applied electric potential: strongly versus weakly charged polymers”, C. Olsen and P. R. Van Tassel, 2009, Journal of Colloid and Interface Science, 329, 222.

59. “Multilayer nanofilms as substrates for hepatocellular applications”, C. R. Wittmer, J. A. Phelps, C. M. Lepus, W. M. Saltzman, M. J. Harding, and P. R. Van Tassel, 2008, Biomaterials, 29, 4082.

58. “Theories of molecular fluids confined in disordered porous materials”, L. Sarkisov and P. R. Van Tassel, 2008, Journal of Physics Condensed Matter, 20, 333101.

57. “Integral equation theory of adsorption in templated materials: influence of molecular attraction”, L. Sarkisov and P. R. Van Tassel, 2007, Journal of Physical Chemistry C, 111, 15726.

56. “Continuous polyelectrolyte adsorption under an applied electric potential”, A. P. Ngankam and P. R. Van Tassel, Proceedings of the National Academy of Sciences of the USA, 2007, 104, 1140.

55. “Fibronectin terminated multilayer films: protein adsorption and cell attachment studies”, C. R. Wittmer, J. A. Phelps, W. M. Saltzman, and P. R. Van Tassel, Biomaterials, 2007, 28, 851.

54. “Protein adsorption kinetics: influence of substrate electric potential”, P. R. Van Tassel, Proteins at Solid-Liquid Interfaces (Springer-Verlag), 2006, 1.

53. “Structuring of macro-ions confined between like-charged surfaces”, A. Tulpar, P. R. Van Tassel, and J. Y. Walz, 2006, Langmuir, 22, 2876.

52. “Replica Ornstein-Zernike theory of adsorption in a templated porous material:  interaction site systems”, L. Sarkisov and P. R. Van Tassel, 2005, Journal of Chemical Physics, 123, 164706.

51. “Adsorbed layers of oriented fibronectin: a strategy to control surface-cell interactions”, C. Calonder, H. W. T. Matthew, and P. R. Van Tassel, 2005, Journal of Biomedical Materials Research A, 75, 316.

50. “In-situ layer-by-layer film formation kinetics under an applied voltage measured by optical waveguide lightmode spectroscopy”, 2005, A. P. Ngankam and P. R. Van Tassel, Langmuir, 21, 5865.

49. “Probing adsorbed fibronectin layer structure by kinetic analysis of monoclonal antibody binding”, C. R. Wittmer and P. R. Van Tassel, 2005, Colloids and Surfaces B, 41, 103.

48. “Conformational transition free energy profiles of an adsorbed, lattice model protein by multicanonical Monte Carlo simulation”, V. Castells and P. R. Van Tassel, 2005, Journal of Chemical Physics, 122, 084707.

47. “Probing macromolecular adsorbed layer structure via the interfacial cavity function”, Y. Tie, A. P. Ngankam, and P. R. Van Tassel, 2004, Langmuir, 20, 10599.

46. “Fibronectin adsorption onto polyelectrolyte multilayer films”, A. P. Ngankam, G. Mao, and P. R. Van Tassel, 2004, Langmuir, 20, 3362.

45. “Protein adsorption kinetics under an applied electric field”, P. R. Van Tassel, 2004, Encyclopedia of Nanoscience and Nanotechnology (Dekker), 14126.

44. “Statistical mechanical modeling of protein adsorption”, P. R. Van Tassel, 2003, Materialwissenschaft Und Werkstofftechnik, 34, 1129.

43. “Protein adsorption: kinetics and history dependence” (invited feature article), Y. Tie, C. Calonder, and P. R. Van Tassel, 2003, Journal of Colloid and Interface Science, 268, 1.

42. “Biomolecules at interfaces”, P. R. Van Tassel, 2003, Encyclopedia of Polymer Science and Technology, 3rd Edition (Wiley), 5, 285.

41. “Protein adsorption under an applied electric field: an optical waveguide lightmode spectroscopy study”, M. A. Brusatori, Y. Tie, and P. R. Van Tassel, 2003, Langmuir, 19, 5089.

40. “Biosensing under an applied voltage using optical waveguide lightmode spectroscopy”, M. A. Brusatori and P. R. Van Tassel, 2003, Biosensors and Biolectronics, 18, 1269.

39. “Surface-induced conformational change in lattice model proteins by Monte Carlo simulation”, V. Castells, S. Yang, and P. R. Van Tassel, 2002, Physical Review E, 65, 031912.

38. “Adsorption in disordered microporous materials: theoretical analysis”, 2002, Encyclopedia of Colloid and Surface Science (Marcel Dekker), 204.

37. “Effect of templated quenched disorder on fluid phase equilibrium”, L. Zhang and P. R. Van Tassel, 2001, Physical Review E, 64, 042101.

36. “History dependence of protein adsorption”, C. Calonder, Y. Tie, and P. R. Van Tassel, 2001. Proceedings of the National Academy of Sciences of the USA, 98, 10664.

35. “Kinetic regimes of protein adsorption”, C. Calonder and P. R. Van Tassel, 2001, Langmuir, 17, 4392.

34. “Theory and simulation of the available volume for adsorption in a chain molecule templated porous material”, S. Cheng and P. R. Van Tassel, 2001, Journal of Chemical Physics, 2001, 114, 4974.

33. “Configurational effects of templating on the adsorption isotherms of templated porous materials”, L. Zhang and P. R. Van Tassel, 2000, Molecular Physics, 98, 1521.

32. “From car parking to protein adsorption: an overview of sequential adsorption processes”, J. Talbot, G. Tarjus, P. R. Van Tassel, and P. Viot, 2000, Colloids and Surfaces A, 165, 287.

31. “Theory and simulation of adsorption in a templated porous material: hard sphere systems”, L. Zhang and P. R. Van Tassel, 2000, Journal of Chemical Physics, 112, 3006.

30. “Enhanced saturation coverage in adsorption-desorption processes”, P. R. Van Tassel, P. Viot, G. Tarjus, J. J. Ramsden, and J. Talbot, 2000, Journal of Chemical Physics, 112, 1483.

29. “A kinetic model of protein adsorption/surface-induced transition kinetics evaluated by the scaled particle theory”, M. A. Brusatori and P. R. Van Tassel, 1999, Journal of Colloid and Interface Science, 219, 333.

28. “Theoretical model of adsorption in a templated porous material”, P. R. Van Tassel, 1999, Physical Review E, 60, R25.

27. “Theoretical and experimental studies of protein adsorption kinetics”, M. Brusatori, S. Yang, P. R. Van Tassel, J. Talbot, P. Viot, and G. Tarjus, 1998, Fundamentals of Adsorption 6, (F. Meunier, Ed.), 485.

26. “An exactly solvable kinetic model of multilayer macromolecular adsorption”, P. R. Van Tassel and P. Viot, 1998, Fundamentals of Adsorption 6, (F. Meunier, Ed.), 1237.

25. “A particle-level model of irreversible protein adsorption with a post-adsorption transition”, P. R. Van Tassel, L. Guemouri, J. J. Ramsden, G. Tarjus, P. Viot, and J. Talbot, 1998, Journal of Colloid and Interface Science, 207, 317.

24. “Generalized model of irreversible multilayer adsorption”, S. Yang, P. Viot, and P. R. Van Tassel, 1998, Physical Review E, 58, 3324.

23. “Nearest-neighbor functions in a one-dimensional generalized ballistic deposition model”, P. Viot, P. R. Van Tassel, and J. Talbot, 1998, Physical Review E, 57, 1661.

22. “Theoretical studies of the available volume for adsorption in a random quenched and depleted medium”, P. R. Van Tassel, 1997, Journal of  Chemical Physics, 107, 9530.

21. “An exactly solvable continuum model of multilayer irreversible adsorption”, P. R. Van Tassel and P. Viot, 1997, Europhysics Letters, 40, 293.

20. “A distribution function analysis of the structure of depleted particle configurations”, P. R. Van Tassel, J. Talbot, P. Viot, and G. Tarjus, 1997, Physical Review E, 56, R1299.

19. “A kinetic model of partially reversible protein adsorption”, P. R. Van Tassel, P. Viot, and G. Tarjus, 1997, Journal of Chemical Physics, 106, 761.

18. “Control of protein adsorption in capillary electrophoresis via an irreversibly bound protein coating”, P. R. Van Tassel, D. Miras, M. Leroy, A. Hagege, J.-C. Voegel, and P. Schaaf, 1996, Journal of Colloid and Interface Science, 183, 269.

17. “Adsorption of binary mixtures in a zeolite micropore”, P. R. Van Tassel, H. T. Davis, and A. V. McCormick, 1996, Molecular Simulation, 17, 239.

16. “Kinetics of irreversible adsorption with a particle conformational change: A density expansion approach”, P. R. Van Tassel, J. Talbot, G. Tarjus, and P. Viot, 1996, Physical Review E, 53, 785.

15. “Modeling sorption in zeolite NaA with molecular density functional theory”, M. C. Mitchell, P. R. Van Tassel, A. V. McCormick, and H. T. Davis, 1995, Studies of Surface Science and Catalysis, 98, 227.

14. “Adsorption and energetics of xenon in mordonite: A Monte Carlo simulation study”, S. S. Nivarthi, P. R. Van Tassel, and A. V. McCormick, 1995, Journal of Chemical Physics, 103, 3029.

13. “Monte Carlo simulation of xenon adsorption with dealumination of an idealized mordenite structure”, S. S. Nivarthi, P. R. Van Tassel, H. T. Davis, and A. V. McCormick, 1995, Zeolites, 15, 40.

12. “Irreversible adsorption of macromolecules at a liquid-solid interface: Theoretical studies of conformational change”, P. R. Van Tassel, P. Viot, G. Tarjus, and J. Talbot, 1994, Journal of Chemical Physics, 101, 7064.

11. “Exactly solvable models of irreversible adsorption with particle spreading”, D. Boyer, J. Talbot, G. Tarjus, P. R. Van Tassel, and P. Viot, 1994, Physical Review E, 49, 5525.

10. “Lattice model and simulation of dynamics of adsorbate motion in zeolites”, P. R. Van Tassel, S. A. Somers, H. T. Davis, and A. V. McCormick, 1994, Chemical Engineering Science, 49, 2979.

9. “A new lattice model for adsorption of small molecules in zeolite micropores”, P. R. Van Tassel, H. T. Davis, and A. V. McCormick, 1994, American Institute of Chemical Engineers Journal, 40, 925.

8. “Adsorption simulations of small molecules and their mixtures in a zeolite micropore”, P. R. Van Tassel, H. T. Davis, and A. V. McCormick, 1994, Langmuir, 10, 1257.

7.  “Zeolite adsorption site location and shape shown by simulated isodensity surfaces”, P. R. Van Tassel, J. C. Phillips, H. T. Davis, and A. V. McCormick, 1993, Journal of Molecular Graphics, 11, 180.

6.  “Open-system Monte Carlo simulations of Xe in NaA”, P. R. Van Tassel, H. T. Davis, and A. V. McCormick, 1993, Journal of Chemical Physics, 98, 8919.

5. “A dynamic Monte Carlo simulation of sorbate mobility in zeolites: The effects of molecular crowding on sorbate mobility”, P. R. Van Tassel, I. Tantra, H. T. Davis, and A. V. McCormick, 1993, Materials Research Society Symposium Proceedings, 290, 147.

4. “Self-assembly of xenon atoms in a NaA alpha cage”, P. R. Van Tassel, C. Hall, H. T. Davis, and A. V. McCormick, 1992, Pure and Applied Chemistry, 64, 1629.

3. “Monte Carlo calculations of Xe arrangement and energetics in the NaA alpha cage”, P. R. Van Tassel, H. T. Davis, and A. V. McCormick, 1992, Molecular Physics, 76, 411.

2. “Monte Carlo calculations of adsorbate placement and thermodynamics in a micropore: Xe in NaA”, P. R. Van Tassel, H. T. Davis, and A. V. McCormick, 1991, Molecular Physics, 73, 1107.

1. “Soft-tipped coronary artery catheters reduce the frequency of coronary artery dissection”, P. Van Tassel, I.F. Goldenberg, W. Pedersen, K. Madison, C. Madison, D. Streitz, M. Walker, S.K. Roeller, S.M. Tadavarthy, P.D. Murray, J.E. Finstad, T.J. Koelz, M. Samii, J.D. Madison, M.R. Pritzker, F.L. Gobel, and R.A. Van Tassel, 1989, American Journal of Cardiology, 64, 1199.