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Articles
Publications - LCC CNRS Toulouse
Improved Non-Grignard Electrolyte Based on Magnesium Borate Trichloride for Rechargeable Magnesium Batteries
Piezoresistive Effect in the [Fe(Htrz)2(trz)](BF4) Spin Crossover Complex | The Journal of Physical Chemistry Letters
PDF) Pressure effect investigations on spin-crossover coordination compounds
Understanding Side Reactions in K–O2 Batteries for Improved Cycle Life | ACS Applied Materials & Interfaces
Improved Non-Grignard Electrolyte Based on Magnesium Borate Trichloride for Rechargeable Magnesium Batteries | Scientific Reports
Mutual Identification between the Pressure-Induced Superlubricity and the Image Contrast Inversion of Carbon Nanostructures from AFM Technology | The Journal of Physical Chemistry Letters
The Power of Stoichiometry: Conditioning and Speciation of MgCl2/AlCl3 in Tetraethylene Glycol Dimethyl Ether-Based Electrolytes | ACS Applied Materials & Interfaces
Broad-Band Dielectric Spectroscopy Reveals Peak Values of Conductivity and Permittivity Switching upon Spin Crossover | The Journal of Physical Chemistry Letters
Theoretical Basis for Switching a Kramers Single Molecular Magnet by Circularly-Polarized Radiation
Mutual Conservation of Redox Mediator and Singlet Oxygen Quencher in Lithium–Oxygen Batteries | ACS Catalysis
Kent Academic Repository
Kent Academic Repository
PDF) Pressure effect investigations on spin-crossover coordination compounds
Using a Chloride-Free Magnesium Battery Electrolyte to Form a Robust Anode–Electrolyte Nanointerface | Nano Letters
PDF) Pressure effect investigations on spin-crossover coordination compounds
Pressure effect investigations on spin-crossover coordination compounds - ScienceDirect
Untitled
Improved Non-Grignard Electrolyte Based on Magnesium Borate Trichloride for Rechargeable Magnesium Batteries
Pressure effect investigations on spin-crossover coordination compounds - ScienceDirect
Using a Chloride-Free Magnesium Battery Electrolyte to Form a Robust Anode–Electrolyte Nanointerface | Nano Letters
Pressure effect investigations on spin-crossover coordination compounds - ScienceDirect
Pressure gradient effect on spin-crossover materials: Experiment vs theory: Journal of Applied Physics: Vol 129, No 6
Piezoresistive Effect in the [Fe(Htrz)2(trz)](BF4) Spin Crossover Complex | The Journal of Physical Chemistry Letters