Institut de Chimie Moléculaire et des Matériaux d'Orsay

Recherche et Innovation en Electrochimie pour l'Energie

Pierre Millet

Professeur
Bât. 410ERIEE – ICMMO
Université Paris-Sud
15, rue Georges Clémenceau
91405 Orsay Cedex
FRANCE

+33 1 69 15 48 12
pierre.millet@u-psud.fr

Dernières publications

Engineering a cobalt clathrochelate/glassy carbon interface for the hydrogen evolution reaction. J. Al Cheikh, A. Villagra, A. Ranjbari, A. Pradon, M. Antuch, D. Dragoe, P. Millet, L. Assaud, Applied Catalysis B: Environmental, 2019, 250, 292-300

The role of surface states during photocurrent switching: Intensity Modulated Photocurrent Spectroscopy analysis of BiVO4 photoelectrodes. M. Antuch, P. Millet, I. Akihide, K. Akihiko, Appl. Catalysis B: Environmental, 2018

Immobilization of carbonaceous materials by functionalized iron(II) clathrochelates with terminal (poly)aromatic group(s) and their detailed cyclic voltammetry study. O.-A. Varzatsky, N.-V. Chornenka, A.-S. Belov, S.-A. Grigoriev, A.-S. Pushkarev, P. Millet, V.-N. Kalinichenko, Y.-Z. Voloshin, I.-G. Belaya, M.-G. Bugaenko, A.-G. Dedov, Electrochimica Acta, 2018, 269, 590-609

Influence of light intensity on the kinetics of light-driven hydrogen evolution using Rh-doped SrTiO3: a study by photoelectrochemical impedance spectroscopy. M. Antuch, A. Kudo, P. Millet, Bulgarian Chemical Communications, 2017, 49, 95-101

Characterization of Rh:SrTiO3 photoelectrodes surface-modified with a cobalt clathrochelate and their application to the hydrogen evolution reaction. M. Antuch, P. Millet, A. Iwase, A. Kudo, S.-A. Grigoriev, Y.-Z. Voloshin, Electrochimica Acta, 2017, 258, 255-265

Operando Current Mapping on PEM Water Electrolysis Cells. Influence of Mechanical stress. B. Verdin, F. Fouda-Onana, P. Millet, Int. J. Hydrogen Energy, 2017, 42(41), 25848-25859

Hydrogen production with a designed clathrochelate-based electrocatalytic materials: Synthesis, X-ray structure and redox-properties of the iron cage complexes with pendant (poly) aryl-terminated ribbed substituents. O. Varzatsky, D. Oranskiy, S. Vakarov, N. Chornenka, A. Belov, A. Vologzhanina, A. Pavlov, S.-A. Grigoriev, A. Pushkarev, P. Millet, V. Kalinichenko, Y.-Z. Voloshin, A. Dedov, Int. J. Hydrogen Energy, 2017, 42, 27894-27909

Hydrogen production by proton exchange membrane water electrolysis using cobalt and iron hexachloroclathrochelates as efficient hydrogen-evolving electrocatalysts. S.-A. Grigoriev, A.-S. Pushkarev, I.-V. Pushkareva, P. Millet, A.-S. Belov, V.-V. Novikov, I.-G. Belaya, Y.-Z. Voloshin, Int. J. Hydrogen Energy, 2017, 42, 27845-27850

Effect of the ligand cage of cobalt clathrochelates on hydrogen evolution electrocatalysis: electrochemical, spectroscopic and DFT analyses. M. Antuch, A. Ranjbari, S.-A. Grigoriev, J. Al Cheikh, A. Villagrá, L. Assaud, Y.-A. Voloshin, P. Millet, Electrochimica Acta, 2017, 245, 1065-1074

Conventional and Innovative Electrocatalysts for PEM Water Electrolysis. P. Millet, ECS Transactions, 2016, 75(14), 28-35

Investigation of power-to-methanol processes coupling electrolytic hydrogen production and catalytic CO2 reduction. R. Rivera-Tinoco, P. Millet, Int. J. Hydrogen Energy, 2016, 41, 4546-4559

Development and characterization of new nickel coatings for application in alkaline water electrolysis. V.-N. Kuleshov, N.-V. Kuleshov, S.-A. Grigoriev, E.-Y. Udris, P. Millet, A.-S. Grigoriev, Int. J. Hydrogen Energy, 2016, 41, 36-45

Influence of iridium oxide loadings on the performance of PEM water electrolysis cells: Part II – Advanced anodic electrodes. C. Rozain, E. Mayousse, N. Guillet, P. Millet, Appl. Catalysis B: Environmental, 2016, 182, 123 - 131

Influence of iridium oxide loadings on the performance of PEM water electrolysis cells: Part I – Pure IrO2-based anodes. P. Rozain, E. Mayousse, N. Guillet, P. Millet, Appl. Catalysis B: Environmental, 2016, 182, 153 - 160

Electrochemical Characterization of a High-Temperature Proton-Exchange Membrane Fuel Cell Using Doped-Poly Benzimidazole as Solid Polymer Electrolyte. S.-A. Grigoriev, N. V. Kuleshov, P. Millet, Journal of Fuel Cell Science and Technology, 2015, 12(3), 1045-1049

Study of nanostructured electrocatalysts synthesized by the platinum magnetron-ion beam sputtering onto metallized nanostructured carbonaceous support. S.-A. Grigoriev, A.-A. Fedotov, V.-Y. Murzin, E.-V. Khramov, Y.-V. Zubavichus, P. Millet, V.-N. Fateev, Russian Journal of Electrochemistry, 2015, 51(9), 807-819

Electrochemical characterization of Polymer Electrolyte Membrane Water Electrolysis Cells. C. Rozain, P. Millet, Electrochimica Acta, 2014, 131, 160-167

Derivation of the diffusion impedance of multi-layer cylinders. Application to the electrochemical permeation of hydrogen through Pd and PdAg hollow cylinders. R. Ngameni, P. Millet, Electrochimica Acta, 2014, 131, 52-59

Failure of PEM water electrolysis cells: Case study involving anode dissolution and membrane thinning. S.-A. Grigoriev, K.-A. Dzhus, D.-G. Bessarabov, P. Millet, Int. J. Hydrogen Energy, 2014, 39, 20440-20446