LISTE DE PUBLICATIONS COMPLETE (à jour janvier 2008)

 

 

1-Articles dans des revues scientifiques à comité de lecture.

1.1Vincent Fleury, Jean-Noël Chazalviel, Michel Rosso et Bernard Sapoval, The Growth Speed of Electrochemical Deposits, Journal of Electroanalytical Chemistry 290, 249 (1990).

1.2Vincent Fleury, Michel Rosso, Jean-Noel Chazalviel et Bernard Sapoval, Ann. Chim. Fr. 16,  143, (1991).

1.3Vincent Fleury, Michel Rosso et Jean-Noel Chazalviel, A Geometrical Aspect of Electrochemical Deposition: The Hecker Effect, Phys. Rev. A 43, 6908, (1991).

1.4Vincent Fleury, On a New  Kind of Ramified Electrodeposits, Journal of the Material Research Society 6, (6), (1991).

1.5Vincent Fleury, Michel Rosso, Jean-Noel Chazalviel et Bernard Sapoval, Experimental Aspects of Electrochemical Deposition of Copper Aggregates, Phys. Rev. A 44, 6693, (1991).

1.6Vincent Fleury, Michel Rosso et Jean-Noel Chazalviel, Theory and Experimental Evidence of Electroconvection around Electrochemical Deposits, Phys. Rev. Lett. 68, 2492, (1992).

1.7Vincent Fleury, Michel Rosso et Jean-Noel Chazalviel, Coupling of Diffusion, Migration and Convection in the Vicinity of Electrochemical Deposits , Phys. Rev. E 48, 1279, (1993).

1.8Vincent Fleury, James Kaufman and David Brynn Hibbert, Evolution of the Space-Charge Layer during Electrochemical Deposition with Convection , Phys. Rev. E 48 (5), (1993).

1.9Vincent Fleury, James Kaufman and David Brynn Hibbert, A Mechanism of Morphology Transition in Ramified Electrodeposition, Nature 367, 435, (1994).

1.10Michel Rosso, Jean-Noël Chazalviel, Vincent Fleury and Elizabeth Chassaing, Experimental Evidence for Gravity Induced Motion in the Vicinity of Ramified Electrodeposits, Electrochim. Acta 39, 507, (1994).

1.11Vincent Fleury and Dale Barkey Runaway growth in two-dimensional electrodeposition, Europhys. Lett. 36, (4), 253, (1996).

1.12Lazlo Balazs, Vincent Fleury, Franck Duclos and Alain van Herpen, Fractal Growth of Silicon-Rich Domains during Annealing of Aluminum Thin Films Deposited on Silica, Phys. Rev. E 54, (1), 599, (1996).

1.13Vincent Fleury and Lazlo Balazs, Annealing of Aluminum  thin films deposited on Silica, Physica A 233, 640, (1996).

1.14Vincent Fleury and Dale Barkey Branched copper deposition on a substrate, Physica A, 233, 730, (1996).

1.15Maurice Goldman, Vincent Fleury and Maurice Guéron, NMR Frequency Shift under Sample Spinning, Journal of Magnetic Resonance A  118, 11, (1996).

1.16Jean-Noël Chazalviel, Michel Rosso, Elizabeth Chassaing and Vincent Fleury, A quantitative study of gravity-induced convection in two-dimensional parallel electrodeposition cells, Journal of Electroanalytical Chemistry, 407, 61, (1996) .

1.17Vincent Fleury, Branched fractal patterns in non-equilibrium electrochemical deposition from oscillatory nucleation and growth, Nature, 390, 13, 145, (1997).

1.18Vincent Fleury and Laurent Schwartz, Diffusion limited aggregation from shear stress as a simple model of vasculogenesis, Fractals, 7, 1, 33, (1999).

1.19Vincent Fleury,  A possible relationship between dendritic growth in physics and plant morphogenesis, C. R. Acad. Sci. (série Biologie), 322,725, (1999).

1.20Vincent Fleury and Laurent Schwartz, Modelisation of 3D microvasculature by interlaced DLA, Fractals, 8, 3, 255, (2000).

1.21Vincent Fleury, Branching morphogenesis in a reaction-diffusion model, Phys. Rev. E 61, 4156, (2000).

The paper Extract from this paper : The role of the long-range morphogen is played by pressure via the shear stress, and it makes diffusible molecules unnecessary. Even if a diffusion limited aggregation or a dielectric breakdown model of maturation based on pressure and shear, and a reaction-diffusion model of tree growth are formally very close, it makes a huge difference from the point of view of biomechanics and of robustness of morphogenesis to process locally the information transported by the flow, or to secrete long-range diffusible morphogens. Indeed, Turing models require construction and control of several coupled fields, while mechanical fields, like the pressure field, are always present. If nature uses the pressure field as ‘‘morphogen’’ instead of a self-produced diffusible field, the morphogenetic process is much more economical, simple, and prone to appear spontaneously. Several intriguing questions are raised by this work. First, since the branching model presented by Meinhardt is a development of Turing’s RD morphogenesis, and since the actual vasculature maturation process is in fact linked to mechanical stress, could it be possible, in return, that such structures as leopards spots, zebra stripes, and the like may be produced by mechanical stresses playing the role of the long-range inhibitor, and not a diffusible morphogen? In that case, the spots’ pattern would be akin to a ‘‘strain figure,’’ classic in mechanics experiments, and not to a ‘‘Turing patter.’’ A mechanism of this sort has already been proposed for chondrogenic condensations.

1.22Vincent Fleury, A fundamental symmetry between branched organ morphogenesis and function, C. R. Acad. Sci. (série Biologie), 324, 405, (2001). The paper.

1.23Vincent Fleury, Wesley Watters, Levy Allam and Thierry Devers, Fast electroplating of insulators, Nature, 416, 716-719, 18 april (2002).

1.24Vincent Fleury and Tomoko Watanabe, Morphogenesis of fingers and branched organs, how collagen and fibroblasts break the symmetry of growing biological tissue, C. R. Acad. Sci. 325 (2002) 571-583.

1.25Jean-Noël Chazalviel et Vincent Fleury, Comment on “Modeling of metal electrodeposits : Analytical Solutions”, Phys. Rev. E 54, 4480 (1996).

1.26Vincent Fleury and Tomoko Watanabe, About the equilibrium shape of fibred structures and biological shapes, C. R. Acad. Sci. série biologies, 327, 663-677 (2004).

The paper

1.27Blondeau J.-P., Allam L., Fleury V., Simon P., Preparation of silicon nanoaggregates by thermal activated reaction  Materials Science & Engineering B (Solid-State Materials for Advanced Technology), vol.B 100, no.1, 15 June 2003. p. 27-34.

1.28M. Rosso, E. Chassaing, V. Fleury and J.-N. Chazalviel, Shape evolution of metals electrodeposited from binary electrolytes, 559, 165-173, (2003).

1.29Thierry Devers, Ibrahima Kanté, Lévy Allam and Vincent Fleury, Preparation of dendritic tin nanoaggregates by electrodeposition, J. Non Cryst. Solids 321, 73-80, (2003).

1.30Vincent Fleury and Laurent Schwartz Numerical investigation of the effect of loss of cellular polarity on cancer geometry and invasiveness, Fractals 11, 4 397-414, (2003).

1.31LeNoble F, Fleury V, Pries A, Corvol P, Eichmann E, Reneman RS (2005) Control of arterial branching morphogenesis in embryogenesis: go with flow. Cardiovasc Res 65, 619–628.

1.32Minh Binh Nguyen, Vincent Fleury and Jean-Franois Gouyet, Epidermal ridges : positional information coded in an orientational field, Fractals and complex systems, 2004, World scientific.

1.33Ibrahima Kante, Philippe Andreazza, Catherine Andreazza, Thierry Devers, Lévy Allam, Vincent Fleury, Structure and atoms mixing in electrodeposited Sn(-Au) nanoaggregates,  J. of Cryst. Growth 12, 176 (2004).

1.34Ferdinand LeNoble, Delphine Moyon, Luc Pardanaud, Li Yuan, Valentin Djonov, Robert Mattheijssen, Christiane Bréant, Vincent Fleury and Anne Eichmann, Flow regulates arterio-venous differentiation in the chick embryo yolk sac , 131 (2) 361-375, (2004). The paper

1.35Vincent Fleury, An elasto-plastic model of avian gastrulation, Organogenesis, 2, 1, 6-16, 2005. The paper

1.36 Thi-Hanh Nguyen, Anne Eichmann, Ferdinand Lenoble, and Vincent Fleury, Dynamics of vascular branching morphogenesis: The effect of blood and tissue flow, Phys. Rev. E 73, 061907 (2006) The paper

1.37Vincent Fleury, Alia Al-Kilani, Mathieu Unbekandt and Thi-Hanh Nguyen, The textural aspects of vessel formation during embryo development, and their relation to gastrulation motions, Organogenesis, 3,1, 49-56, (2007). The paper

1.38Zhe Wu, Yong-Jun Bao, Guang-Wei Yu, Mu Wang, Ru-Wen Peng, Vincent Fleury, Xi-Ping Hao and Nai-ben Ming, Characterization of periodically nanostructured copper filaments self-organized by electrodeposition Journal of Physics, 18, 23, pp 5425-5434, 2006.

1.39Vincent Fleury, La mathématisation complète d'un vertébré s'avère possible, Revue des Questions Scientifiques, N°177 (3-4): 235-278 (2006).

1.40 Elodie Lahaye, Thierry Aubry,Vincent Fleury, and Olivier Sire, Does Water Activity Rule P. mirabilis Periodic Swarming? II. Viscoelasticity and Water Balance During Colony's Swarming, Biomacromolecules, 2007.

1.41 Alia Al-Kilani, Annemiek Cornelissen, Thi-Hanh Nguyen, Sylvie Lorthois, Yelena Melezhik, Loic Leroy, Ferdinand Lenoble, Mathieu Unbekandt, and Vincent Fleury, During vertebrate development arteries exert a morphological control over veins through physical factors, accepté Phys. Rev. E (2008). The paper

1.42 V. Fleury, A physical approach to neoteny, Soumis

1.43 M. Unbekandt, P. del Moral, F. sala, S. belluschi, D. Warburton and V.Fleury, Tracheal occlusion increases the rate of epithelial branching of embryonic mouse lung via the FGF10-FGFR2b-Sprouty2 pathway, Mechanisms of development (2008). The paper

1.44 Yelena Melezhik, Alia Al-Kilani and Vincent Fleury, Cracking the tetrapod puzzle, soumis.

1.45 C. Odin, T. Guilbert, A. Al-Kilani, O. P. Boryskina, V. Fleury, and Y. Le Grand, to appear Optics Express  (2008).. The paper

 

1.46Vincent Fleury, Le démon de l’analogie (sur une figure récurrente de l’œuvre de Roger Caillois), Europe, Numéro spécial Roger Caillois, 2000.

1.47Vincent Fleury, Alan Turing, Une vie de secret, Revue Sigila, N° 15, mars 2005. The paper

1.48 Vincent Fleury, Le trou noir des origines est le nombril, Revue Sigila, N° Octobre 2008 “Le secret des origines”.

                                                       

2-"Proceedings" à comité de lecture

2.49Vincent Fleury, Michel Rosso and Jean-Noel Chazalviel, Diffusion Migration and Convection in Electrochemical Deposition, vortex pairs, vortex rings arches and domes in Structure and Properties of Deposits, Harish Merchant editor proceedings of the 3M (Metals Minerals and Materials Society) symposium on “Structure and Properties of Deposits”, (1995).

2.50Vincent Fleury, Michel Rosso and Jean-Noel Chazalviel Electrochemical deposition without supporting electrolyte,  proceedings of the Materials Research Society Symposium P, F. Family R. Wool and B. Sapoval editors (Boston 1994).

2.51Vincent Fleury, Michel Rosso and Jean-Noel Chazalviel 2-D and 3-D convection during electrochemical deposition, experiments and models,  proceedings of the Materials Research Society, Symposium P, F. Family, R. Wool and B. Sapoval editors, (Boston 1994).

2.52Vincent Fleury, Lazlo Balazs and Franck Duclos, Fractal Growth of Clusters and Holes during Annealing of Aluminum Thin Films Deposited on Silica,  Materials Research Society Symposium M, G. Stanley, H. Cummins editors (Boston 1995).

2.53Jean-Philippe Blondeau, Christian Dumond, Lévy Allam and Vincent Fleury, In situ study of the Al/SiO₂ reaction around the eutectic point, proceedings of the MRS meeting, Boston 1999.

2.54O. P. Boryskina, Y. Le Grand, C. Odin and V. Fleury. J. of the European Microwave Association, 4, 3 255, ( 2008).The paper

 

 

3-Divers : notices encyclopédiques, articles de vulgarisation.

3.55Michel Rosso et Vincent Fleury, Formation d’Arborescences Métalliques par Electrodéposition , Revue du Palais de la Découverte, numéro spécial cinquantenaire du CNRS, janvier 1991.

3.56Vincent Fleury, Comment pousse un dépôt électrolytique, revue La Recherche, mai 1994.

3.57Vincent Fleury,  Les nanotubes de graphite et l’encapsulation, Encyclopaedia Universalis.

3.58Vincent Fleury, Le Silicium poreux, Encyclopaedia Universalis.

Vincent Fleury,  Entrée “Etat de la matière”, Encyclopaedia Universalis.

3.59Vincent Fleury, Les empreintes digitales, Pour la Science, numéro spécial juillet 2004 "Les mathématiques du vivant".

3.60Vincent Fleury et Thi-Hanh Nguyen, La morphogenèse des vaisseaux sanguins, de la biologie à la physique, Pour la Science, numéro spécial, juillet 2004.

3.61Vincent Fleury, Tomoko Watanabe, Thi-Hanh Nguyen et Mathieu Unbekandt, La complexité des organes, Pour la Science, N°314, décembe 2003.

3.62Vincent Fleury, L'objet entre la science et l'art, catalogue de l'exposition "Le cabinet de Curioité", Bruxelles 2003, exposition organisée par l'Université Libre de Bruxelles.

3.63Vincent Fleury Editorial invité du numéro spécial de Pour la Science Juillet 2004.

 

4-Chapitres de livres.

4.64Michel Rosso, Vincent Fleury, Jean-Noël Chazalviel, Bernard Sapoval and Elizabeth Chassaing, in  Growth Patterns in Physical Sciences and Biology proceedings of the NATO advanced Research Workshop, Granada, Spain (1991).

4.65Vincent Fleury, Jean-Noël Chazalviel, Michel Rosso et Bernard Sapoval, Quantitative Experiments and Theoretical Aspects in Electrodeposition without a Supporting Electrolyte  in Correlations and Connectivity, H. E. Stanley and N. Ostrowsky (eds.), pp304-305, NATO ASII series, Kluwer Academic Publishers, Netherlands, (1990).

4.66Vincent Fleury, Two symmetries linking biological and physical branching morphogenesis, in V. Fleury, J.-F. Gouyet and M. Leonetti editors,  Branching in Nature, Springer Verlag/EDP Sciences, 2001.

4.67Vincent Fleury and Laurent Schwartz, A link between dendritic growth and remodelling of blood vessels in V. Fleury, J.-F. Gouyet and M. Leonetti editors,  Branching in Nature, Springer Verlag/EDP Sciences, 2001.

4.68Jean-Noël Chazalviel,Vincent Fleury and Michel Rosso, Electrodeposition of Fractal Aggregates, in New Trends in Electrochemistry, Research Trends, India, (1996).

4.69Jean-Philippe Blondeau, Christian Dumond, Lévy Allam et Vincent Fleury, Etude in situ de croissances fractales à l'interface Aluminium/dioxyde de Silicium,  in  "Sciences et Technologies: Regards Croisés”, p.291, l’Harmattan, Paris, 1999.

4.70David Warburton, Saverio Bellusci, Stijn DeLanghe, Pierre-Marie Del Moral, Vincent Fleury, Arnaud Mailleux, Denise Tefft, Mattieu Unbekandt, Kasper Wang, Wei Shi, Molecular mechanisms of early lung specification and branching morphogenesis, à paraître Pneum. Physiol. Review.

4.71V. Fleury et al. Mechanism of branching morphogenesis in animals, from viscous fingering to cartilage rings, in Branching morphogenesis, edited by J. Davies, Avril 2005, Landes Biosciences publishing.

4.72V. Fleury, Réflexions sur les croissances arborisée, et conditions d'une croissance auto-organisée, in Génétiquement indéterminé, sous la direction de Sylvie Pouteau, Editions QUAE, 2007.

4.73A. Cornelissen, T.H. Nguyen, A. Al-Kilani, F. LeNoble and V. Fleury, Mechanical self-organization mechanisms involved in vascular branching morphogenesis, to appear in Embryology Today.

 

5-Livres comme auteur ou éditeur et thèse.

5.74Vincent Fleury, Jean-François Gouyet and Marc Leonetti editors,  Branching in Nature, Springer Verlag/EDP Sciences, 2001.

5.75Vincent Fleury, Arbres de Pierre (La croissance fractale de la matière), éditions Flammarion, Paris, 1998.

5.76Vincent Fleury, Thèse de Doctorat : Croissance d'Agrégats Métalliques Ramifiés  par Voie Electrochimique  (1992), Imprimerie de l'Ecole Polytechnique (Palaiseau, 91128 France).

5.77Vincent Fleury, Des pieds et des mains, genèse des formes de la nature, Février 2003, éditions Flammarion, Paris. (réédition 2005 en coll. de poche Champs Flammarion).

5.78Vincent Fleury, De l'oeuf à l'éternité, le sens de l'évolution, Novembre 2006, éditions Flammarion, Paris.

 

 

6-Brevets

6.79Vincent Fleury, Procédé de métallisation d’un substrat isolant par voie électrochimique, brevet FR 99.12644 (11/10/1999).

6.80Vincent Fleury, Lévy Allam et Thierry Devers, Capteur de molécules réductrices, brevet 0010147 (01/05/2000).

 

7-Livres de vulgarisation scientifique édités sous ma responsabilité.

7.1 Regards sur l’éthique des sciences, Gérard Toulouse, 1998.

7.2 L’espace, les enjeux et les mythes, André Lebeau, 1998 (Prix Lapérouse 1998).

7.3 Métastases, Laurent Schwartz, 1998 (prix MEDEC 1998).

7.4 Le grand massacre, l’avenir des espèces vivantes, François Ramade, 1999.

7.5 L’air et la ville, Isabelle Roussel et William Dabb, 2001.

7.6 Il pleut des planètes, Alfred Vidal-Madjar, 1999.

7.6 Tonometer, The paper .