Search Results - "Masquelier, C"

Comprehensive Investigation of the Na3V2(PO4)2F3–NaV2(PO4)2F3 System by Operando High Resolution Synchrotron X‑ray Diffraction by Bianchini, M, Fauth, F, Brisset, N, Weill, F, Suard, E, Masquelier, C, Croguennec, L

“…Na3V2(PO4)2F3 is a positive electrode material for Na-ion batteries which is attracting strong interest due to its high capacity, rate capability, and…”
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An all-solid state NASICON sodium battery operating at 200°C by LALERE, F, LERICHE, J. B, COURTY, M, BOULINEAU, S, VIALLET, V, MASQUELIER, C, SEZNEC, V

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Study of the LiFePO4/FePO4 Two-Phase System by High-Resolution Electron Energy Loss Spectroscopy by Laffont, L, Delacourt, C, Gibot, P, Wu, M. Yue, Kooyman, P, Masquelier, C, Tarascon, J. Marie

“…The intriguingly fast electrochemical response of the insulating LiFePO4 insertion electrode toward Li is of both fundamental and practical importance. Here we…”
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Na3V2(PO4)2F3 Revisited: A High-Resolution Diffraction Study by Bianchini, M, Brisset, N, Fauth, F, Weill, F, Elkaim, E, Suard, E, Masquelier, C, Croguennec, L

“…Na3V2(PO4)2F3 is a material that has been attracting great interest as a potential positive electrode for Na-ion batteries. Its crystal structure was…”
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Magnetic Structures of the Triphylite LiFePO4 and of Its Delithiated Form FePO4 by Rousse, G, Rodriguez-Carvajal, J, Patoux, S, Masquelier, C

“…The magnetic structures of LiFePO4 and of its delithiated form FePO4 (triphylite, olivine group, space group Pnma) have been solved using neutron diffraction…”
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One-Step Low-Temperature Route for the Preparation of Electrochemically Active LiMnPO4 Powders by Delacourt, C, Poizot, P, Morcrette, M, Tarascon, J.-M, Masquelier, C

“…Pure and well-crystallized LiMnPO4 powders were obtained by a direct precipitation route in an aqueous medium at 373 K. A thermodynamic study of the system…”
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Understanding Local Defects in Li-Ion Battery Electrodes through Combined DFT/NMR Studies: Application to LiVPO4F by Bamine, T, Boivin, E, Boucher, F, Messinger, R. J, Salager, E, Deschamps, M, Masquelier, C, Croguennec, L, Ménétrier, M, Carlier, D

“…In a recent study, we showed by solid-state NMR that LiVPO4F, which is a promising material as positive electrode for Li-ion batteries, often exhibits some…”
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High temperature electrochemical performance of nanosized LiFePO4 by MESTRE-AIZPURUA, F, HAMELET, S, MASQUELIER, C, PALACIN, M. R

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Electrochemical and electrical properties of Nb- and/or C-containing LiFePO4 composites by Delacourt, C., Wurm, C., Laffont, L., Leriche, J.-B., Masquelier, C.

“…A study of LiFePO4-based electrodes prepared through various synthesis conditions is presented. From X-Ray diffraction, high resolution transmission electron…”
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Rhombohedral Form of Li3V2(PO4)3 as a Cathode in Li-Ion Batteries by Gaubicher, J, Wurm, C, Goward, G, Masquelier, C, Nazar, L

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Synchrotron X-rays and neutrons as essential tools in Li battery research: Examples of oxide, phosphate and silicate-based positive electrodes by Masquelier, C.

“…The precise characterization and structural analysis of positive electrodes for Li-ion batteries is essential for the development of long-life, safe and…”
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Hydrothermal synthesis, silver decoration and electrochemistry of LiMPO4 (M=Fe, Mn, and Co) single crystals by Recham, N., Oró-Solé, J., Djellab, K., Palacín, M.R., Masquelier, C., Tarascon, J-M.

“…Ionothermal synthesis was recently reported as a very attractive method to design new electrode materials for lithium ion batteries. Here, we report the use of…”
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Existence of Superstructures Due to Large Amounts of Fe Vacancies in the LiFePO4-Type Framework by Hamelet, S, Casas-Cabanas, M, Dupont, L, Davoisne, C, Tarascon, J. M, Masquelier, C

“…LiFePO4 has been under intense scrutiny over the past decade because it stands as an attractive positive electrode material for the next generation of Li-ion…”
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In situ X-ray diffraction techniques as a powerful tool to study battery electrode materials by Morcrette, M., Chabre, Y., Vaughan, G., Amatucci, G., Leriche, J.-B., Patoux, S., Masquelier, C., Tarascon, J-M.

“…The performances of rechargeable Li-based batteries depend on many factors amongst which is the structural evolution of the electrode materials upon cycling…”
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New Cathode Materials for Rechargeable Lithium Batteries: The 3-D Framework Structures Li3Fe2(XO4)3(X=P, As) by Masquelier, C., Padhi, A.K., Nanjundaswamy, K.S., Goodenough, J.B.

“…Electrochemical insertion of lithium into four Li3Fe2(XO4)3polymorphs (X=P or As) with 3-D framework structures was carried out in “Li/LiClO4(PC:DME)/cathode”…”
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A Powder Neutron Diffraction Investigation of the Two Rhombohedral NASICON Analogues:  γ-Na3Fe2(PO4)3 and Li3Fe2(PO4)3 by Masquelier, C, Wurm, C, Rodríguez-Carvajal, J, Gaubicher, J, Nazar, L

“…The crystal structures of polycrystalline rhombohedral γ-Na3Fe2(PO4)3 and Li3Fe2(PO4)3 obtained through Na ↔ Li ion exchange have been determined for the first…”
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MicroRaman spectroscopy on LiMn2O4: warnings on laser-induced thermal decomposition by PAOLONE, A, SACCHETTI, A, CORRIDONI, T, POSTORINO, P, CANTELLI, R, ROUSSE, G, MASQUELIER, C

“…Raman spectroscopy, together with X-ray diffraction, is a well-established technique to characterize samples among which the manganospinels that find…”
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Synthesis, Phase Stability, and Electrochemically Driven Transformations in the LiCuO2−Li2CuO2 System by Prakash, A. S, Larcher, D, Morcrette, M, Hegde, M. S, Leriche, J-B, Masquelier, C

“…Trivalent LiCuO2 was prepared by oxidative leaching of divalent Li2CuO2 in Br2-acetonitrile solutions at ambient temperature. Both phases were found to be…”
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Chemical reactivity of thermo-hardenable steel weld joints investigated by electrochemical impedance spectroscopy by Basak, A.K., Diomidis, N., Celis, J.-P., Masquelier, C., Warichet, D.

“…The chemical reactivity of oxide-free weld joints made of thermo-hardened carbon steel in different electrolytes was investigated by chronopotentiometry,…”
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Viraemia and HIV-1 drug resistance mutations among patients receiving antiretroviral treatment in Mozambique by Maldonado, F., Biot, M., Roman, F., Masquelier, C., Anapenge, M., Bastos, R., Chuquela, H.C., Arendt, V., Schmit, J.C., Zachariah, R.

“…This study was conducted among individuals taking first-line antiretroviral treatment (ART) for at least 12 months under programme conditions in Maputo,…”
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