Sandrine Leclerc scite author profile

Sandrine Leclerc

2Publications

114Citation Statements Received

132Citation Statements Given

How they've been cited

139

108

How they cite others

125

Affiliations

Physicochimie des Électrolytes et Nanosystèmes Interfaciaux, Sorbonne University

Publications

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Lithium Intercalation in Anatase Titanium Vacancies and the Role of Local Anionic Environment

Morgan

et al. 2018

Chem. Mater.

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The structure of bulk and nondefective compounds is generally described with crystal models built from well mastered techniques such the analysis of an X-ray diffractogram. The presence of defects, such as cationic vacancies, locally disrupt the long-range order, with the appearance of local structures with order extending only a few nanometers. To probe and describe the electrochemical properties of cation-deficient anatase, we investigated a series of materials having different concentrations of vacancies, i.e., Ti1–x–y □ x+y O2–4(x+y)F4x (OH)4y , and compared their properties with respect to defect-free stoichiometric anatase TiO2. At first, we characterized the series of materials Ti1–x–y □ x+y O2–4(x+y)F4x (OH)4y by means of pair distribution function (PDF), 19F nuclear magnetic resonance (NMR), Raman and X-ray photoelectron spectroscopies, to probe the compositional and structural features. Second, we characterized the insertion electrochemical properties vs metallic lithium where we emphasized the beneficial role of the vacancies on the cyclability of the electrode under high C-rate, with performances scaling with the concentration of vacancies. The improved properties were explained by the change of the lithium insertion mechanism due to the presence of the vacancies, which act as host sites and suppress the phase transition typically observed in pure TiO2, and further favor diffusive transport of lithium within the structure. NMR spectroscopy performed on lithiated samples provides evidence for the insertion of lithium in vacancies. By combining electrochemistry and DFT-calculations, we characterized the electrochemical signatures of the lithium insertion in the vacancies. Importantly, we found that the insertion voltage largely depends on the local anionic environment of the vacancy with a fluoride and hydroxide-rich environments, yielding high and low insertion voltages, respectively. This work further supports the beneficial use of defects engineering in electrodes for batteries and provides new fundamental knowledge in the insertion chemistry of cationic vacancies as host sites.

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Improvements of the electrochemical features of graphite fluorides in primary lithium battery by electrodeposition of polypyrrole

Groult

Julien

Bahloul

et al. 2011

Electrochemistry Communications

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