| Intermediate honeycomb ordering to trigger oxygen redox chemistry in layered battery electrode B Mortemard de Boisse, G Liu, J Ma, S Nishimura, SC Chung, H Kiuchi, ... Nature communications 7 (1), 11397, 2016 | 274 | 2016 |
| P2-NaxMn1/2Fe1/2O2 Phase Used as Positive Electrode in Na Batteries: Structural Changes Induced by the Electrochemical (De)intercalation Process B Mortemard de Boisse, D Carlier, M Guignard, L Bourgeois, C Delmas Inorganic chemistry 53 (20), 11197-11205, 2014 | 252 | 2014 |
| P2-NaxMn1/2Fe1/2O2 Phase Used as Positive Electrode in Na Batteries: Structural Changes Induced by the Electrochemical (De)intercalation Process B Mortemard de Boisse, D Carlier, M Guignard, L Bourgeois, C Delmas Inorganic chemistry 53 (20), 11197-11205, 2014 | 252 | 2014 |
| Structural and electrochemical characterizations of P2 and New O3-NaxMn1-yFeyO2 Phases prepared by auto-combustion synthesis for Na-ion batteries BM De Boisse, D Carlier, M Guignard, C Delmas Journal of The Electrochemical Society 160 (4), A569, 2013 | 209 | 2013 |
| O3–Na x Mn 1/3 Fe 2/3 O 2 as a positive electrode material for Na-ion batteries: structural evolutions and redox mechanisms upon Na+(de) intercalation BM De Boisse, JH Cheng, D Carlier, M Guignard, CJ Pan, S Bordere, ... Journal of Materials Chemistry A 3 (20), 10976-10989, 2015 | 129 | 2015 |
| Highly Reversible Oxygen‐Redox Chemistry at 4.1 V in Na4/7−x[□1/7Mn6/7]O2 (□: Mn Vacancy) B Mortemard de Boisse, S Nishimura, E Watanabe, L Lander, ... Advanced Energy Materials 8 (20), 1800409, 2018 | 115 | 2018 |
| Redox Potential Paradox in NaxMO2 for Sodium-Ion Battery Cathodes Y Nanba, T Iwao, BM Boisse, W Zhao, E Hosono, D Asakura, H Niwa, ... Chemistry of Materials 28 (4), 1058-1065, 2016 | 103 | 2016 |
| Coulombic self-ordering upon charging a large-capacity layered cathode material for rechargeable batteries B Mortemard de Boisse, M Reynaud, J Ma, J Kikkawa, S Nishimura, ... Nature communications 10 (1), 2185, 2019 | 75 | 2019 |
| New P2-Na0. 70Mn0. 60Ni0. 30Co0. 10O2 layered oxide as electrode material for Na-ion batteries J Yoshida, E Guerin, M Arnault, C Constantin, BM de Boisse, D Carlier, ... Journal of The Electrochemical Society 161 (14), A1987, 2014 | 74 | 2014 |
| Influence of Mn/Fe Ratio on Electrochemical and Structural Properties of P2-NaxMn1–yFeyO2 Phases as Positive Electrode Material for Na-Ion Batteries B Mortemard de Boisse, D Carlier, M Guignard, E Guerin, M Duttine, ... Chemistry of Materials 30 (21), 7672-7681, 2018 | 40 | 2018 |
| Alkaline excess strategy to NASICON-type compounds towards higher-capacity battery electrodes BM de Boisse, J Ming, S Nishimura, A Yamada Journal of The Electrochemical Society 163 (7), A1469, 2016 | 37 | 2016 |
| Synthesis and Electrochemistry of Na2.5(Fe1−yMny)1.75(SO4)3 Solid Solutions for Na‐Ion Batteries S Wei, B Mortemard de Boisse, G Oyama, S Nishimura, A Yamada ChemElectroChem 3 (2), 209-213, 2016 | 36 | 2016 |
| Redox-driven spin transition in a layered battery cathode material E Watanabe, W Zhao, A Sugahara, B Mortemard de Boisse, L Lander, ... Chemistry of Materials 31 (7), 2358-2365, 2019 | 20 | 2019 |
| Structural and Electrochemical studies of NaxMn1-yFeyO2 and NaNiO2 materials as positive electrode for Na-ion batteries BM de Boisse Université de Bordeaux, 2014 | 2 | 2014 |
| Highly Reversible Oxygen-Redox Chemistry at 4.1 V in Na4/7-x [square Mn-1/7 (6/7)] O-2 (square: Mn Vacancy) BM de Boisse, S Nishimura, E Watanabe, L Lander, A Tsuchimoto, ... ADVANCED ENERGY MATERIALS 8 (20), 2018 | | 2018 |
| Revisiting the NaxNiO2 system R KANNO, T Phraewphiphat, BM de Boisse, M Guignard, D Carlier, ... Revisiting the NaxNiO2 system, 2015 | | 2015 |
