Laurence Croguennec mainly focuses on Lithium, Inorganic chemistry, Electrochemistry, Oxide and Analytical chemistry. Her study in Lithium is interdisciplinary in nature, drawing from both Neutron diffraction, Crystal structure, Battery, Thermogravimetric analysis and Mineralogy. Her Inorganic chemistry study frequently draws connections to other fields, such as Nickel.
Laurence Croguennec works mostly in the field of Electrochemistry, limiting it down to concerns involving Intercalation and, occasionally, Lithium battery. Her biological study deals with issues like Annealing, which deal with fields such as Crystallography. Laurence Croguennec has included themes like Crystallization, Space group, Rietveld refinement and Formula unit in her Analytical chemistry study.
The scientist’s investigation covers issues in Lithium, Inorganic chemistry, Electrochemistry, Crystallography and Analytical chemistry. Laurence Croguennec combines subjects such as Chemical physics, Thermal treatment, Neutron diffraction and Intercalation with her study of Lithium. Her Inorganic chemistry study combines topics from a wide range of disciplines, such as Nickel, Nickel oxide, Electrode and Crystallite.
Laurence Croguennec combines subjects such as Battery, Solid solution, Aluminium and Oxidation state with her study of Electrochemistry. Her Crystallography research includes elements of X-ray crystallography, Electron diffraction and Stacking. In general Analytical chemistry study, her work on Absorption spectroscopy often relates to the realm of In situ, thereby connecting several areas of interest.
Laurence Croguennec focuses on Electrochemistry, Inorganic chemistry, Electrode, Analytical chemistry and Crystallography. Laurence Croguennec conducts interdisciplinary study in the fields of Electrochemistry and Transition metal through her works. As part of one scientific family, Laurence Croguennec deals mainly with the area of Inorganic chemistry, narrowing it down to issues related to the Electrode material, and often Mineralogy, Polymer chemistry, Imide and Oxide.
Her studies in Electrode integrate themes in fields like Battery and Sodium. She has researched Crystallography in several fields, including Ionic bonding and Electronic structure. She has included themes like Hydrothermal synthesis, Tetrahedron and Lithium in her Crystal structure study.
Her primary scientific interests are in Electrochemistry, Analytical chemistry, Magic angle spinning, Electrode and Crystal chemistry. Her work in Electrochemistry covers topics such as Fluorine which are related to areas like Electrode material. Her Analytical chemistry study focuses on Absorption spectroscopy in particular.
Her Absorption spectroscopy study frequently draws parallels with other fields, such as Crystallography. Her biological study spans a wide range of topics, including Neutron diffraction, Crystal structure, Solid solution, Molecular physics and Lithium. Her research in Electrode intersects with topics in Battery and Fermi contact interaction, Paramagnetism.
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Lithium deintercalation in LiFePO4 nanoparticles via a domino-cascade model
Claude Delmas;Magalie Maccario;Laurence Croguennec;F. Le Cras.
Nature Materials (2008)
Polyanionic (phosphates, silicates, sulfates) frameworks as electrode materials for rechargeable Li (or Na) batteries.
Christian Masquelier;Laurence Croguennec.
Chemical Reviews (2013)
Recent Achievements on Inorganic Electrode Materials for Lithium-Ion Batteries
Laurence Croguennec;M. Rosa Palacin.
Journal of the American Chemical Society (2015)
An Overview of the Li(Ni,M)O2 Systems: Syntheses, Structures and Properties
C Delmas;C Delmas;M Ménétrier;M Ménétrier;L Croguennec;L Croguennec;I Saadoune;I Saadoune.
Electrochimica Acta (1999)
Towards high energy density sodium ion batteries through electrolyte optimization
Alexandre Ponrouch;Rémi Dedryvère;Rémi Dedryvère;Damien Monti;Damien Monti;Atif E. Demet.
Energy and Environmental Science (2013)
Reversible Oxygen Participation to the Redox Processes Revealed for Li1.20Mn0.54Co0.13Ni0.13O2
Hideyuki Koga;Hideyuki Koga;Laurence Croguennec;Michel Ménétrier;Kaïs Douhil.
Journal of The Electrochemical Society (2013)
Mechanisms Associated with the “Plateau” Observed at High Voltage for the Overlithiated Li1.12(Ni0.425Mn0.425Co0.15)0.88O2 System
Nicolas Tran;Laurence Croguennec;Michel Ménétrier;François Weill.
Chemistry of Materials (2008)
Different oxygen redox participation for bulk and surface: A possible global explanation for the cycling mechanism of Li1.20Mn0.54Co0.13Ni0.13O2
Hideyuki Koga;Hideyuki Koga;Laurence Croguennec;Michel Ménétrier;Philippe Mannessiez.
Journal of Power Sources (2013)
Atomic resolution of lithium ions in LiCoO2.
Yang Shao-Horn;Yang Shao-Horn;Laurence Croguennec;Claude Delmas;E. Chris Nelson.
Nature Materials (2003)
Synthesis and Characterization of New LiNi1 − y Mg y O 2 Positive Electrode Materials for Lithium‐Ion Batteries
C. Pouillerie;C. Pouillerie;L. Croguennec;Ph. Biensan;P. Willmann.
Journal of The Electrochemical Society (2000)
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