Main Research Activities
Developing inorganic materials for the future enabling of fast and efficient solar energy conversion and storage. Investigation of opto-electronic properties of the most common insertion materials and study of the underlying photo electrochemical processes of light-induced charge transfer in photoelectrodes.Academic Training
Thèse 2019
Supervisors - Frédéric Sauvage (LRCS), Albert Nguyen Van Nhien (LG2A)
Topic – Bi-functional materials combining energy storage and energy conversion from sunlight
Professional skills
Running Projects
ANR
Effect of standard light illumination on electrolyte’s stability of lithium-ion batteries based on ethylene and di-methyl carbonates
Gaspard Bouteau, Albert Nguyen Van-Nhien, Michel Sliwa, Nicolas Sergent, Jean-Claude Lepretre, Grégory Gachot, Iryna Sagaidak, Frédéric Sauvage
Scientific Reports, 2019
Light-Induced Charge Separation in Mixed Electronic/Ionic Semiconductor Driving Lithium-Ion Transfer for Photo-Rechargeable Electrode
C. Andriamiadamanana, I. Sagaidak, G. Bouteau, C. Davoisne, C. Laberty-Robert, F. Sauvage
Advanced Sustainable Systems, 2018
New iodide-based amino acid molecules for more sustainable electrolytes in dye-sensitized solar cells
Iryna Sagaidak, Guillaume Huertas, Albert Nguyen Van Nhien, Frédéric Sauvage
Green Chemistry, 2018
Towards Renewable Iodide Sources for Electrolytes in Dye-Sensitized Solar Cells
I. Sagaidak, G. Huertas, A. Nguyen Van Nhien, F. Sauvage
Energies, 2016
