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Univ. Paris-Saclay



Nanosciences et Innovation pour les Matériaux, la Biomédecine et l'Énergie - UMR CEA-CNRS NIMBE

Laboratoire d'Etude des Eléments Légers (LEEL)

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Research ID: B-4590-2016


  • CEA researcher since January 2016




  • 2014-2016        Postdoctoral associate, Massachusetts Institute of Technology (MIT), Cambridge, USA
  • 2010-2013        PhD, University of Nantes, FRANCE and INRS University, Montreal, CANADA
  • 2009-2010        Master 2 New and Renewable Energies, University of Nantes, FRANCE


  • Technological Innovation award and special award of the jury at the Energia Challenge, Quebec Association for the Control of Energy (AQME), 2015
  • Best thesis in cotutelle between France and Quebec 2014, Consulat of France in Quebec, 2014
  • “Student-researcher star” Award, Quebec’s research funding, 2013
  • Participation to the Lindau Nobel Laureates Meeting 2013 on chemistry
  • Best poster award, 3rd German-French Summer School on Electrochemistry&Nanotechnologies, 2011


Mes publications récentes (base HAL CEA)
26. Functionalization and Crosslinking of Reduced Graphene Oxide Sheets by Multiple Tetrazine Units to Improve the Energy Storage in Supercapacitors, M. Bosmi, A. Adeniji, E. Michel, A. Brosseau, V. Brasiliense, P. Audebert, R. Pongilat, M. Gauthier, F. Miomandre, ChemElectroChem, (2023) doi.org/10.1002/celc.202300467
25. Operando Magnetic Resonance Imaging Reveals Phase Transitions Driven by Nonuniform Cathode Lithiation in Li-Ion Pouch Cells, K.  Romanenko, N. Avdievich, A. Wong, M. Gauthier, R. Pongilat, A. Jerschow, Chem. Mater. 35, 9789–9798 (2023)
24. Predicting degradation mechanisms in bistriflimide "water-in-salt" electrolytes for aqueous batteries, M. Paillot, A. Wong, S. A. Denisov, P. Soudan, P. Poizot, B. Montigny, M. Mostafavi, M. Gauthier, S. Le Caër, ChemSusChem, (2023) doi/10.1002/cssc.202300692
23. Are Operando Measurements of Rechargeable Batteries Always Reliable? An Example of Beam Effect with a Mg Battery, L. Blondeau, S. Surblé, E. Foy, H. Khodja, S. Belin, M. Gauthier, Anal. Chem., 94, 9683-9689 (2022)
22. Influence of Electrolyte on the Electrode/Electrolyte Interface Formation on InSb Electrode in Mg-Ion Batteries, I. Mohammad, L. Blondeau, J. Leroy, H. Khodja, M. Gauthier, Molecules, 26, 5721 (2021)
21. MIL-53 Metal–Organic Framework as a Flexible Cathode for Lithium-Oxygen Batteries, Y. Zhang, B. Gikonyo, H. Khodja, M. Gauthier, E. Foy, B. Goetz, C. Serre, S. Coste Leconte, V. Pimenta, S. Surblé, Materials, 14, 4618 (2021)
20. Operando NMR characterization of a metal-air battery using a double-compartment cell design, M. Gauthier, M. H. Nguyen, L. Blondeau, E. Foy, A. Wong, Solid State Nuclear Magnetic Resonance, 113, 101732 (2021)
19. Nanostructured intermetallic InSb as a high-capacity and high-performance negative electrode for sodium-ion batteries, I. Mohammad, L. Blondeau, E. Foy, J. Leroy, E. Leroy, H. Khodja, M. Gauthier, Sustainable Energy & Fuels,  5, 3825-3835 (2021)
18. Magnesium batteries: Current picture and missing pieces of the puzzle, R. Dominko, J. Bitenc, R. Berthelot, M. Gauthier, G. Pagot, V. Di Noto, J. Power Sources, 478, 229027 (2020)
17. Reactivity with Water and Bulk Ruthenium Redox of Lithium Ruthenate in Basic Solutions, R. R. Rao,  M. Tułodziecki,  B. Han,  M. Risch,  A. Abakumov,  Y. Yu,  P. Karayaylali,  M. Gauthier,  M. Escudero‐Escribano,  Y. Orikasa,  Y. Shao‐Horn, Adv. Funct. Mater., https://doi.org/10.1002/adfm.202002249.
16. Electrochemical reactivity of In-Pb solid solution as a negative electrode for rechargeable Mg-ion batteries, L. Blondeau, S. Surblé, E. Foy, H. Khodja, M. Gauthier, Journal of Energy Chem., 55, 124-128 (2021)
15. Revealing Electronic Signature of Lattice Oxygen Redox in Lithium Ruthenates and Implications for High-Energy Li-ion Battery Material Designs.
Y. Yu, P. Karayaylali, S. H. Nowak, L. Giordano, M. Gauthier, W. Hong, R. Kou, Q. Li, J. Vinson, T. Kroll, D. Sokaras, C-J. Sun, N. Charles, F. Maglia, R. Jung, Y. Shao-Horn, Chem. Mater., 31, 7864–7876 (2019)
14. Unexpected Behavior of the InSb Alloy in Mg-Ion Batteries: Unlocking the Reversibility of Sb.
L. Blondeau, E. Foy, H. Khodja, M. Gauthier, J. Phys. Chem. C,123, 1120–1126 (2019)
13. Coupled LiPF6 decomposition and carbonate dehydrogenation enhanced by highly covalent metal oxides in high-energy Li-ion batteries. 
Y. Yu, P. Karayaylali, Y. Katayama, L. Giodano, M. Gauthier, F. Maglia, R. Jung, I. Lund, Y. Shao-Horn, J. Phys. Chem. C, 122, 27368-27382 (2018)
12. Operando analysis of lithium profiles in Li-ion batteries using nuclear microanalysis.
S. Surblé, C. Paireau, J.-F. Martin, V. Tarnopolskiy, M. Gauthier, H. Khodja, L. Daniel, S. Patoux, J. Power Sources, 393, 37-42 (2018)
11. Probing surface chemistry changes using LiCoO2-only electrodes in Li-Ion batteries.
M. Gauthier, P. Karayaylali, L. Giordano, S. Feng, S. F. Lux, F. Maglia, P. Lamp and Y. Shao-Horn, J .Electrochem. Soc., 7, 165, A1377-A1387 (2018)
10. One-Electron Mechanism in a Gel–Polymer Electrolyte Li–O2 Battery.
C. V. Amanchukwu, H-H. Chang, M. Gauthier, S. Feng, T. P. Batcho and P. T. Hammond, Chem. Mater.  28, 19, 7167-7177 (2016)
9. Evaluation and stability of PEDOT polymer electrodes for Li–O2 batteries.
C. V. Amanchukwu, M. Gauthier, T. P. Batcho, C. Symister, Y. Shao-Horn, J. M. D’Arcy and Paula T. Hammond, J. Phys. Chem. Lett.  7, 19, 3770-3775 (2016)
8. Electrode–electrolyte interface in Li-Ion batteries: current understanding and new insights.
M. Gauthier, T. J. Carney, A. Grimaud, L. Giordano, N. Pour, H-H. Chang, D. P. Fenning, S. Lux, O. Paschos, C. Bauer, F. Maglia, S. Lupart, P. Lamp and Y. Shao-Horn, J. Phys. Chem. Lett. 6, 4653 (2015)
7. Very high surface capacity with Si negative electrodes embedded in copper foam as 3D current collector.
D. Mazouzi, D. Reyter, M. Gauthier, P. Moreau, D. Guyomard, L. Roué and B. Lestriez, Adv. Energy Mater., 4, 1301718 (2014)
6. From Si wafers to cheap and efficient Si electrodes for Li-ion batteries.
M. Gauthier, S. Rousselot, D. Mazouzi, D. Reyter, B. Lestriez, P. Moreau, D. Guyomard and L. Roué, J. Power Sources, 256, 32 (2014)
5. Electrochemically roughened Cu current collector for Si-based electrode in Li-ion batteries.
D Reyter, S. Rousselot, D. Mazouzi, M. Gauthier, B. Lestriez, P. Moreau, D. Guyomard and L. Roué, J. Power Sources, 239, 308, (2013)
4. A low-cost and high-energy density Si-based negative electrode for Li-ion batteries.
M. Gauthier, D. Mazouzi, D. Reyter, B. Lestriez, P. Moreau, D. Guyomard and L. Roué, Energy Environ. Sci., 6, 2145, (2013)
3. Nanoscale compositional changes during first delithiation of Si negative electrodes.
M. Gauthier, J. Danet, B.Lestriez, L. Roué, D. Guyomard, P. Moreau, J. Power Sources, 227, 237, (2013)
2. New insights into the silicon-based electrode’s irreversibility along cycle life through simple gravimetric method.
D. Mazouzi, N. Delpuech, Y. Oumellal, M. Gauthier, M. Cerbelaud, P. Moreau, N. Dupré, J.  Gaubicher, D. Guyomard, L. Roué and B. Lestriez, J. Power Sources, 220, 180, (2012)
1. Synthesis of boron-doped Si particles by ball milling and application in Li-ion batteries.
S. Rousselot, M. Gauthier, D. Mazouzi, B. Lestriez, D. Guyomard and L. Roué, J. Power Sources, 202, 262, (2012)


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