Direction d'ouvrages: chapitres rédigés par des membres de l'ULB (4)
  1. 2. Kaufman, M. (1988). Memory and Paralysis Phenomena in the Immune Response: Interpretation in terms of Multiple Steady State Transitions. In M. Markus, S. Muller, & G. Nicolis (Eds.), From Chemical to Biological Organization (pp. 263-275). Springer Verlag.
  2. 3. Prigogine, I. (1984). Nonequilibrium thermodynamics and chemical evolution : an overview. In G. Nicolis (Ed.), Aspects of Chemical Evolution. Hoboken: John Wiley & Sons.(Advances in Chemical Physics, 55). doi:10.1002/9780470142790.ch4
  3. 4. Kaufman, M. (1974). Can Thermodynamic Explain Biological Order. In I. Prigogine, A. Babloyantz, G. Nicolis, R. Lefever, & I. Stengers (Eds.), Impact of Science on Society (pp. 159-179).
    4.   Direction d'actes de colloque: chapitres rédigés par des membres de l'ULB (11)
  4. 1. Roli, A., Amaducci, M., Garattoni, L., Pinciroli, C., & Birattari, M. (2012). State space properties of Boolean networks trained for sequence tasks. In M. Gilbert, M. Kirkilionis, & G. Nicolis (Eds.), Proceedings of the 12th European Conference on Complex Systems, ECCS 2012, Springer Proceedings in Complexity (pp. 235-240) Berlin, Germany: Springer.
  5. 2. Schmitz, G. (1990). Transient Behaviours in the Bray Liebhafsky Reaction. In P. Gray, G. Nicolis, F. Baras, P. Borckmans, & S. Scott (Eds.), Spatial Inhomogeneities and Transient Behaviour in Chemical Kinetics (p. 666) Manchester University Press.
  6. 3. Wang, X.-J., & Gaspard, P. (1990). Homoclinicity and multimodal periodic or chaotic oscillations in chemical kinetics. In P. Gray, G. Nicolis, F. Baras, P. Borckmans, & S. Scott (Eds.), Spatial inhomogeneities and transient behavior in chemical kinetics (pp. 687-690) Manchester, U.K.: Manchester University press.
  7. 4. Dewel, G., & Borckmans, P. (1990). Modelling Transient Behaviour in Chemical Kinetics. In P. Gray, G. Nicolis, F. Baras, P. Borckmans, & S. Scott (Eds.), Spatial inhomogeneities and transient behaviour in chemical kinetics (pp. 205-222). (Proceedings in nonlinear science). Manchester ; New York: Manchester University Press.
  8. 5. Laplante, J. P., Borckmans, P., Dewel, G., Gimenez, M., & Micheau, J. C. (1990). Relaxation Kinetics near Hysteresis Limit of a Bistable Chemical System: the Chlorite-Iodide Reaction in a C.S.T.R. In P. Gray, G. Nicolis, F. Baras, P. Borckmans, & S. Scott (Eds.), Spatial inhomogeneities and transient behaviour in chemical kinetics (pp. 684-686). (Proceedings in nonlinear science). Manchester ; New York: Manchester University Press.
  9. 6. Kestemont, E., & Mareschal, M. (1989). Fluctuations in psychochemical systems near an instability by molecular dynamics. In P. Gray & G. Nicolis (Eds.), Spatial inhomogeneities and transient behaviour in chemical kinetics: Proceedings in nonlinear science Manchester: Manchester University Press.
  10. 7. Prigogine, I., Kestemont, E., & Mareschal, M. (1988). Velocity correlations and irreversibility: a molecular dynamics approach. In M. Markus, S. C. Müller, & G. Nicolis (Eds.), From chemical to biological organization: Proceedings of the international symposium Berlin: Springer-Verlag.
  11. 8. Borckmans, P., & Dewel, G. (1988). Chemical Structures and Convection. In M. Markus, S. C. Müller, & G. Nicolis (Eds.), From Chemical to Biological Organization (pp. 114-121). (Springer series in synergetics, 39). Berlin ; New York: Springer-Verlag.
  12. 9. Dewel, G., Borckmans, P., & Walgraef, D. (1984). Spatial Structures in Non Equilibrium Systems. In G. Nicolis & F. Baras (Eds.), Chemical instabilities: applications in chemistry, engineering, geology, and materials science (pp. 385-400). (NATO ASI Series C : Mathematical and physical sciences, 120). Dordrecht ; Boston: D. Reidel Pub. Co.
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