Institut de Chimie Moléculaire et des Matériaux d'Orsay

Equipe de Recherche et d'Innovation en Electrochimie pour l'Energie (ERIEE)

Pierre Millet

Pierre Millet

Professeur
LPCES - ICMMO - Bât 410
Université Paris-Sud 11
15, rue Georges Clémenceau
91405 Orsay Cedex
FRANCE

Tél : 01.69.15.48.12
pierre.millet@u-psud.fr

Recherche Communications Publications Congrès - Posters Brevets - Prix

Publications dans des actes de congrès avec comité de lecture (abstracts étendus)

Publications avec Comité de Lecture :

P2- P. MILLET, R. DURAND and M. PINERI
New Solid Polymer Electrolyte composites for water electrolysis
J. Appl. Electrochem., 19 (1989) 162-166

P3- P. ALDEBERT, F. NOVEL, M. PINERI, P. MILLET, C. DOUMAIN and R. DURAND
Preparation and characterization of SPE composites for electrolysers and fuel cells
Solid State Ionics, 35 (1989) 3-9

P4- R. TETOT, M. BENZAKOUR, P. MILLET et G. BOUREAU
Application de la thermodynamique statistique à l'étude des composés non stoechiométriques
Journal de Chimie Physique et de Chimie Biologie, 86 (1989) 1017-1021

P5- P. Millet, T. Alleau, P. Mathonnet, M. Pineri and R. Durand
Solid Polymer Electrolyte Water Electrolysis as a mean of Energy Storage for Space Applications
ESA SP-294, paper presented at the European Space Power Conference, ESA Ed., Madrid (1989), 245-249

P6- P. MILLET, R. DURAND and M. PINERI
Preparation of new Solid Polymer Electrolyte composites for water electrolysis
Int. J. Hydrogen Energy, 15 (1990) 245-253

P7- P. MILLET
Determination of self-diffusion coefficients from conductivity measurements in perfluorinated ionomer membranes
J. Membrane Sci., 50 (1990) 325-328

P8- P. MILLET
Water electrolysis using EME technology : temperature profile inside a Nafion membrane during electrolysis
Electrochim. Acta, 36 (1990) 263-267

P9- A. MICHAS and P. MILLET
Metal and metal oxides based membrane composites for Solid Polymer Electrolyte water electrolysis
J. Membrane Sci., 61 (1991) 157-165

P10- P. MILLET, R. DURAND, E. DARTYGE, G. TOURILLON and A. FONTAINE
Study of the precipitation of metallic platinum into ionomers membranes by time-resolved dispersive X-ray spectroscopy
48th Int. Meet. of Physical Chemistry, Synchrotron Radiation and Dynamic Phenomena, American Institute of Physics, Paper 258, Grenoble, France (1991) p.531-538

P11- P. MILLET, T. ALLEAU and R. DURAND
Characterization of membrane-electrodes assemblies for Solid Polymer Electrolyte water electrolysis
J. Appl. Electrochem., 23 (1993) 322-331

P12- P. MILLET, R. DURAND, E. DARTYGE, G. TOURILLON, A. FONTAINE
Precipitation of metallic platinum into Nafion ionomer membranes- Experimental results
J. Electrochem. Soc., 140 (1993) 1373

P13- F. ANDOLFATTO, R. DURAND, A. MICHAS, P. MILLET and P. STEVENS
Solid Polymer Electrolyte water electrolysis : electrocatalysis and long term stability
Int. J. Hydrogen Energy, 19 (1994) 421-427

P14- P. MILLET
Water electrolysis using EME technology : electric potential distribution inside a Nafion membrane during electrolysis
Electrochim. Acta, 39 (1994) 2501-2506

P15- P. MILLET, F. ANDOLFATTO and R. DURAND
Preparation of Solid Polymer Electrolyte Composites. Investigation of the ion-exchange process
J. Appl. Electrochem., 25 (1995) 227-232

P16- P. MILLET, F. ANDOLFATTO and R. DURAND
Preparation of Solid Polymer Electrolyte Composites. Investigation of the precipitation process
J. Appl. Electrochem. 25 (1995) 233-239

P17- H. Y. CAI, P. MILLET and P. DANTZER
Intermetallic hydrides. (I) Investigation of the rate of phase transformation
J. Alloys Comp., 231 (1995) pp. 427-433

P18- P. MILLET, F. ANDOLFATTO and R. DURAND
Design and performances of a Solid Polymer Electrolyte water electrolyser
Int. J. Hydrogen Energy, 21 (1996) 87

P19- P. MILLET
Electric potential distribution in an electro-chemical cell
J. Chem. Educ., 73 (1996) 956

P20- P. MILLET, A. MICHAS and R. DURAND
Solid Polymer Electrolyte technology : development and test of an ethanol gas sensor
J. Appl. Electrochem., 26 (1996) 933-937

P21- P. MILLET and P. DANTZER
A new approach to the kinetics of LaNi5 - H2(g) systems based on impedance spectroscopy analysis
J. Alloys Comp., 253 (1997) pp. 542-546

P22- P. MILLET
A review of Proton-Exchange-Membrane Based Applications
Research Trends, Current Topics in Electrochemistry, Poojapura, India, Vol. 4 (1997) pp. 101-114

P23- P. MILLET
Noble metal - membrane composites for electrochemical applications
J. Chem. Edu., 76 (1999) 47-49

P24- P. MILLET, P. Dantzer
Impedance of metal hydride electrodes. Rate of phase transformation limited by nucleation and growth mechanisms
Electrochem. Com., 1 (1999) 163-166

P25- P. DANTZER and P. MILLET
Advances in hydride phase growth : automatic high precision calorimeter – volumetric devices, for thermodynamic and kinetics analyses
Rev. Sci. Instrum., 71 (2000) 142-153

P26- P. DANTZER, P. MILLET and T. FLANAGAN
Thermodynamic characterization of hydride phase growth in ZrNi-H2
Metallurgical and Materials Transactions A, 32 (2001) 29-38

P27- P. DANTZER and P. MILLET
Heat flux calorimetry in intermetallic compound- H2(g) systems : heat measurements and modeling in the low pressures range
Thermochimica Acta, 370 (2001) 1-14

P28- P. Millet, M. Srour, R. faure and R. Durand
A study of the hydrogen absorption and desorption reactions in palladium electrodes using the potential step method
Electrochem. Com., 3 (2001) 478-482

P29- P. DANTZER and P. MILLET
On the accuracy of heat flux calorimetry in stable intermetallic-H2(g) systems
J. Alloys Comp., 330-332 (2002) 34-40

P30- N. MICHEL, S. POULAT, P. MILLET, P. DANTZER, L. PRIESTER and M. GUPTA
ZrNi-H2 : microstructural analysis of the thermodynamically controlled hydride phase growth, and electronic properties
J. Alloys Comp., 330-332 (2002) 280-286

P31- P. MILLET and P. DANTZER
Hydriding kinetics analysis by the frequency response method. Application to the ZrNi-H2(g) system
J. Alloys Comp., 330-332 (2002) 476-482

P32- P. MILLET
Thermodynamic paths in the two-phase domain of the PdH system and a method for kinetic analysis
Electrochem. Com., 7 (2005) 40-44

P33- P. Millet
Pneumato-chemical impedance spectroscopy : (I) principles
J. Phys. Chem., 109 (2005) 24016 – 24024

P34- P. Millet
Pneumato-chemical impedance spectroscopy : (II) dynamics of hydrogen sorption by metals
J. Phys. Chem., 109 (2005) 24025-24030

P35- P. Millet
L’électrolyse de l’eau à membrane acide
Techniques de l’ingénieur (2006)

P36- P. Millet
Le réacteur électrochimique
Techniques de l’ingénieur (2006)

P37- O. Pantani, E. Anxolabéhère - Mallart, A. Aukauloo, P. MILLET
Electroactivity of cobalt and nickel glyoximes with regard to the electro-reduction of protons into molecular hydrogen in acidic media
Electrochem. Commun., 9 (2007) 54-58

P39- P. MILLET, C. decaux, R. Ngameni, M. Guymont
Fourier domain analysis of hydriding kinetics using pneumato-chemical impedance spectroscopy
Research Letters in Physical-Chemistry, vol. 2007, Article ID 96251, 5 pages, 2007. doi:10.1155/2007/96251

P40- P. MILLET, C. decaux, R. Ngameni, M. Guymont
Experimental requirements for measuring pneumato-chemical impedances
Rev. Sci. Instrum. 78 (2007) 123902-1 to 123902-11

P41- S. grigoriev, P. MILLET, V. N. FATEEV
Evaluation of carbon-supported Pt and Pd nanoparticles for the hydrogen evolution reaction in PEM water electrolysers
J. Power Sources, 177 (2008) 281-285

P42- S. grigoriev, L.I. Ilyukhina, P.H. Middleton, T.O. Saetre, P. MILLET, V. N. FATEEV
Comparative evaluation of palladium and platinum nanoparticles as catalysts in PEM electrochemical cells
Int. J. Hydrogen Energy, in press

P43- P. MILLET, C. lebouin, R. Ngameni, A. Ranjbari, M. Guymont
Hydriding reaction of LaNi5. 1- correlations between thermodynamic states and sorption kinetics during activation.
Research Letters in Physical-Chemistry, vol. 2007, accepted for publication

Publications dans des actes de congrès avec comité de lecture
(abstract étendus) :

• International Hydrogen Energy Congress & Exhibition, Istanbul, Turkey, 13-15 July 2005
- FP01 : C. Etiévant, C. Puyenchet, P. Millet
Design and operating performances of a 5 kW PEM water electrolyser for high pressure production of pure hydrogen, pp. 1-4

• 16th World Hydrogen Energy Conference, Lyon, 13-16 juin 2006
- FP02 : S. Grigoriev, E. lyutikova, S. martemianov, V. Fateev, C. lebouin, P. Millet
Non-platinum electrocatalysts for PEM applications, paper n° 098, pp. 1-9

- FP03 : A. Deschamps, C. Etievant, V. Fateev, S. Grigoriev, A. Kalinnikov, P. Millet, V.Porembsky, c. Puyenchet
Development of advanced PEM water electrolyzers, paper n° 108, pp. 1-6

- FP04 : o. Pantani, E. Anxolabehere, A. Aukauloo, P. Millet
Electroactivity of Cobalt complexes for the reduction of protons into di-hydrogen. Application to PEM water electrolysis, paper n° 317, pp. 1-8

-
FP05 : T. Medhoui, E. Anxolabehere, A. Aukauloo, P. Millet
Biomimetic approaches for the development of non-noble metal electrocatalysts. Application to PEM water electrolysis, paper n° 390, pp. 1-9

- FP06 : P. Millet
Pneumato-chemical impedance spectroscopy : a new tool for analyzing the dynamics of metal – H2(g) systems, paper n° 391, pp. 1-10

-FP07 : C. Decaux, P. MilletNew experimental set-up and procedure for analyzing the dynamics of permeation of H2(g) across Pd-based metallic membranes, paper n° 392, pp. 1-9

• 19ème forum sur les impédances électrochimiques, Paris, 11 décembre 2006
-
FP08 : P. Millet and C. Decaux
Mesure non-harmonique de fonctions de transfert : principe et application à l’étude des interactions métal-hydrogène,pp. 1-20

• 2nd Workshop International sur l’Hydrogène (WIH2), Ghardaïa, Algeria, 19-21 march 2007 repoussé au 27-29 octobre 2007
-
FP09 : P. Millet, V. Fateev, S. Grigoriev, A. Deschamps, C. Etievant, C. Puyenchet
GenHyPEM : a research program on PEM water electrolysis supported by the European Commission, pp. 1-8

- FP10 : P. Millet, M. Guymont
Metal hydrides : activation procedures, thermodynamic and kinetic analysis, pp. 1-9

- FP11 : P. Millet
Recent advances in metal hydride characterization, pp. 1-10

- FP12 : C. Decaux, P. Millet
Frequency-domain analysis of hydrogen permeation across Pd-based metallic membranes, pp. 1-8

- FP13 : A. Deschamps, C. Etiévant, C. Puyenchet, P. Millet
Hydrogen-based electric power facility for domestic applications, pp. 1-8

- FP14 : S. Grigoriev, I. Baranov, P. Millet, Z. Li, V. Fateev
Optimization of porous current collectors for PEM water electrolysers, pp. 1-6

• 5th International Conference on hydrogen economy and hydrogen treatment of materials (HTM),
Donetsk, Ukraine, 21-25 may 2007

-
FP15 : S. Grigoriev, P. Millet, F. Fateev
Status of PEM water electrolysis technology, pp. 1-6

- FP16 : P. Millet, C. Lebouin, S. Grigoriev, M. Guymont
Electrical analogies for modeling metal-hydrogen sorption reactions, vol. 2, pp. 512-516.

- FP17 : P. Millet, C. Lebouin, S. Grigoriev, M. Guymont
Hydrogen-induced phase transformation processes in LaNi5-H2(g) systems, vol. 1, pp. 322-326

• 3rd European Hydrogen Energy Conference (EHEC), Maastricht, the Netherlands, 18-22 june 2007
- FP18 : P. Millet, S. Grigoriev, F. Fateev, C. Puyenchet, C. Etiévant
PEM water electrolysers for the production of electrolytic hydrogen from renewable energy sources, paper n° 169, pp. 1-6.

- FP19 : P. Millet, M. Guymont
Storage of electrolytic hydrogen in hydride tanks : fundamentals and applied results, paper n° 169, pp. 1-6.

- FP20 : P. Millet, C. Decaux
Hydrogen permeation across Pd77Ag23 metallic membranes : mechanism analysis, paper n° 170, pp. 1-6.

• 2ème Colloque « Matériaux, Mécanique, Microstructures », l’hydrogène dans les matériaux, INSTN, CEA-Saclay, France,
18-19 Juin 2007

-
FP21 : C. Decaux, P. Millet
Analyse du mécanisme de perméation de l’hydrogène gazeux à travers des membranes métalliques, pp. 1-8.

- FP22 : P. Millet, M. Guymont, S. Korobtsev
Analyse de la dynamique d’hydruration des métaux par spectroscopie d’impédance gazeuse. Application au stockage de l’hydrogène électrolytique, pp. 1-8.