Proceeding

Trends in Physical Chemistry Publisher Research Trends. Editor J. Menon, 1995,
Synthesis of nanosize particles of semicondutor type II-V
M.P. Pileni, L. Motte, N. Moumen.

        Self-assembly of inorganic magnetic nanocrystals: a new physics emerges.
        M.P. Pileni Journal of Physics D: Applied Physics, 2008, 134002

        Self organization of inorganic nanomaterials. 
       M.P. Pileni J. Phys. Cond. Mat. , 2006, 18, S67-S84

Self assemblies of nanocrystals: Preparation, Collective properties and uses.
Lalatonne, D. Ingert, I. Lisiecki, A. Courty and M.P. Pileni
Discussion Faraday , 2004, 115, 2551.  

Self assemblies of silver sulfide nanocrystals: influence of length of thio-alkyl chains  used as coating agent.
L.Motte et M.P. Pileni Applied Surface Science, 2000, 164, 60.

Shape control of copper nanocrystals.
A. Filankembo et M.P. Pileni Applied Surface  Science, 2000, 164, 260.
Hysteresis of cobalt nanoparticles organized in a two-dimensional network: dipolar    interaction effects.
V. Russier, C. Petit, J. Legrand et M.P. Pileni Applied Surface Science, 2000, 164, 193.

Collective effect on magnetic properties of 2D superlattices of Nano-Sized Cobalt          Particles
 J. Legrand, C. Petit, D. Bazin and M.P.Pileni Applied Surface Science, 2000, 164, 186.

        Optical Anisotropy of organized silver nanoparticles in 2D superlattice.
        Taleb, V. Russier, A. Courty and M.P. Pileni
        Applied Surface Sciences, 2000, 162-163, 655.

Local Electronic Properties of Self Assembled metal Nanparticles 

Taleb, A.O. Gusev, F. Charra and M.P. Pileni
Applied Surface Sciences, 2000, 162-163, 553.

Physical Properties of Self assembled nano-Sized Cobalt Particles.
C. Petit and M.P. Pileni Applied Surface Sciences, 2000, 162-163, 519.

Influence of the substrate on the self-assemblies of silver sulfide nanocrystals.
Motte, E. Lacaze, M. Maillard et M.P. Pileni
Applied Surface Sciences, 2000, 162-163, 604.

Mesoscopic effects in magnetism: Submicron to nanomater size single particle measurements. Wernsdofer, E.Bonnet Orozco, B.Barbara, K. Hasselbach, A. Benoit, D.Mailly, B. Doudin, J.Meir, J.E.Wegrowe, J.Ph. Ansermat, N. Demonncy, H.Pascard, N.Demoney, A. Loiseau, L.François, N.Duxin and M.P.Pileni
J.Appl. Phys., 1997, 81, 1.

Phase transition induced by solubizing cytochrome c in reverse micelles.
J.P. Huruguen, B. Perly and M.P. Pileni
ed American Institute of Physic, 1991, 226, 539.

        Micelles inverses : un microréacteur. M.P. Pileni Science et Défense, 1990, 15, 6.

Solubilization of gelatine in reverse micelles.
Petit, T. Zemb and M.P. Pileni Ed. American Institute of Physic, 1991, 509.

Phase transition induced by solubilizing ribonuclease at high water content in AOT    reverse micelles
Michel, F. Pitré and M.P. Pileni Ed. American Institute of Physic, 1991,5 49.

Semiconductors in reverse micelles. C. Petit, J.P. Fontaine, P. Lixon and M.P. Pileni (ed.) ASPA 1998.
Polymerization of direct micelles B. Lerebours and M.P Pileni,  ASPA1998.

Tensioactifs: Descriptions, critères de choix et utilisation en recherche fondamentale. Revue de la defense 1996.

Surfactant in solutions ed K.L. Mittal and P. Bothorel, 1986.
Hydrated electron in reverse micelles.
M.P. Pileni, P. Brochette, T. Zemb and J. Milhaud

Surfactant in solution. Ed K.L. Mittal and P. Bothorel, 1986.
Micellar effects on the back reaction following photochemical electron transfer from a water soluble porphyrin to mono and dialkylviologens.
B. Lerebours, S. Chevalier, Y. Chevalier, C. Baudin and M.P. Pileni

Surfactant in solution. Ed K.L. Mittal and P. Bothorel, 1986.
Photoelectron transfer in reverse micelles: Chlorophyll used as a sensitizer.
P. Brochette, P. Mathis and M.P. Pileni

Surfactant in solution. Ed K.L. Mittal and P. Bothorel, 1986.
Micellar effects on the back reaction following photochemical electron transfer from a water soluble porphyrin to mono and dialkylviologens.
B. Lerebours, S. Chevalier, Y. Chevalier, C. Baudin and M.P. Pileni

Agence Française pour la maîtrise d’énergie ; Bioconversion directe de l’énergie solaire et photochimique » 1985.

Influence des milieux organisés sur la séparation des produits formés lors d’un phototransfert d’électron.
B. Lerebours, P. Brochette, Y. Chevalier, P. Mathis et M.P. Pileni

La réactivité chimique, CNRS , 1981:
Quelques rappels des propriétés structurales des milieux organisés et leur influence sur la réaction chimique. (1981)

 

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