Cited by
Cited by
Effect of structure on the Fe3+/Fe2+ redox couple in iron phosphates
AK Padhi, KS Nanjundaswamy, C Masquelier, S Okada, JB Goodenough
Journal of the Electrochemical Society 144 (5), 1609, 1997
Fundamentals of inorganic solid-state electrolytes for batteries
T Famprikis, P Canepa, JA Dawson, MS Islam, C Masquelier
Nature materials 18 (12), 1278-1291, 2019
Polyanionic (phosphates, silicates, sulfates) frameworks as electrode materials for rechargeable Li (or Na) batteries
C Masquelier, L Croguennec
Chemical Reviews 113 (8), 6552-6591, 2013
Size effects on carbon-free LiFePO4 powders: The key to superior energy density
C Delacourt, P Poizot, S Levasseur, C Masquelier
Electrochemical and Solid-State Letters 9 (7), A352, 2006
Toward understanding of electrical limitations (electronic, ionic) in LiMPO4 (M= Fe, Mn) electrode materials
C Delacourt, L Laffont, R Bouchet, C Wurm, JB Leriche, M Morcrette, ...
Journal of the Electrochemical Society 152 (5), A913, 2005
Room-temperature single-phase Li insertion/extraction in nanoscale LixFePO4
P Gibot, M Casas-Cabanas, L Laffont, S Levasseur, P Carlach, S Hamelet, ...
Nature materials 7 (9), 741-747, 2008
Effect of particle size on lithium intercalation into α Fe2 O 3
D Larcher, C Masquelier, D Bonnin, Y Chabre, V Masson, JB Leriche, ...
Journal of the Electrochemical Society 150 (1), A133, 2002
Study of the LiFePO4/FePO4 Two-Phase System by High-Resolution Electron Energy Loss Spectroscopy
L Laffont, C Delacourt, P Gibot, MY Wu, P Kooyman, C Masquelier, ...
Chemistry of materials 18 (23), 5520-5529, 2006
The existence of a temperature-driven solid solution in LixFePO4 for 0 ≤ x ≤ 1
C Delacourt, P Poizot, JM Tarascon, C Masquelier
Nature materials 4 (3), 254-260, 2005
Cathode materials for secondary (rechargeable) lithium batteries
JB Goodenough, AK Padhi, KS Nanjundaswamy, C Masquelier
US Patent 5,910,382, 1999
One-step low-temperature route for the preparation of electrochemically active LiMnPO4 powders
C Delacourt, P Poizot, M Morcrette, JM Tarascon, C Masquelier
Chemistry of Materials 16 (1), 93-99, 2004
Towards high energy density sodium ion batteries through electrolyte optimization
A Ponrouch, R Dedryvčre, D Monti, AE Demet, JMA Mba, L Croguennec, ...
Energy & Environmental Science 6 (8), 2361-2369, 2013
Mapping of transition metal redox energies in phosphates with NASICON structure by lithium intercalation
AK Padhi, KS Nanjundaswamy, C Masquelier, JB Goodenough
Journal of the Electrochemical Society 144 (8), 2581, 1997
New cathode materials for rechargeable lithium batteries: the 3-D framework structures Li3Fe2 (XO4) 3 (X= P, As)
C Masquelier, AK Padhi, KS Nanjundaswamy, JB Goodenough
Journal of Solid State Chemistry 135 (2), 228-234, 1998
Silicate cathodes for lithium batteries: alternatives to phosphates?
MS Islam, R Dominko, C Masquelier, C Sirisopanaporn, AR Armstrong, ...
Journal of Materials Chemistry 21 (27), 9811-9818, 2011
Magnetic Structures of the Triphylite LiFePO4 and of Its Delithiated Form FePO4
G Rousse, J Rodriguez-Carvajal, S Patoux, C Masquelier
Chemistry of materials 15 (21), 4082-4090, 2003
Electronic crystallization in a lithium battery material: columnar ordering of electrons and holes in the spinel LiMn 2 O 4
J Rodriguez-Carvajal, G Rousse, C Masquelier, M Hervieu
Physical Review Letters 81 (21), 4660, 1998
An electrochemical cell for operando study of lithium batteries using synchrotron radiation
JB Leriche, S Hamelet, J Shu, M Morcrette, C Masquelier, G Ouvrard, ...
Journal of the Electrochemical Society 157 (5), A606, 2010
Rhombohedral form of Li3V2 (PO4) 3 as a cathode in Li-ion batteries
J Gaubicher, C Wurm, G Goward, C Masquelier, L Nazar
Chemistry of materials 12 (11), 3240-3242, 2000
Chemical and magnetic characterization of spinel materials in the LiMn2O4–Li2Mn4O9–Li4Mn5O12System
C Masquelier, M Tabuchi, K Ado, R Kanno, Y Kobayashi, Y Maki, ...
Journal of solid state chemistry 123 (2), 255-266, 1996
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