Rhombohedral iron trifluoride with a hierarchized macroporous/mesoporous texture from gaseous fluorination of iron disilicide

• Published in: Materials chemistry and physics Vol. 173; no. 15 April 2016; pp. 355 - 363
• Main Authors: Guérin, Katia, Delbègue, Diane, Louvain, Nicolas, Doubtsof, Léa, Hamwi, André, Laik, Barbara, Pereira-Ramos, Jean-Pierre, Tahar-sougrati, Moulay, Jumas, Jean-Claude, Willmann, Patrick, Cénac-Morthe, Céline
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 15.04.2016; Elsevier
• Series: In press, corrected proof
• Subjects: Channels; Chemical Sciences; Current density; Electrochemical properties; Electron microscopy; Fluorination; Formations; Inorganic chemistry; Inorganic compounds; Iron; Lithium; Mossbauer spectroscopy; Surface layer; Texture; Electrochemical properties; Inorganic compounds; Electron microscopy; Mossbauer spectroscopy; Iron trifluoride; Li-ion batteries
• ISSN: 0254-0584; 1879-3312
• DOI: 10.1016/j.matchemphys.2016.02.023

Stable low temperature rhombohedral iron trifluoride has been obtained by the fluorination under the pure fluorine gas of iron disilicide. The combination of both unusual fluorination process and precursor avoids to get unhydrated crystalline FeF3 particles and allows the formation of hierarchized channels of mesoporous/macroporous texture favorable for lithium diffusion. The fluorination mechanism proceeds by temperature steps from the formation, for a fluorination temperature below 200 °C, of an amorphous phase and an intermediate iron difluoride identified mainly by 57Fe Mössbauer spectroscopy before getting, as soon as a fluorination temperature of 260 °C is reached, the rhombohedral FeF3. Both amorphous and crystallized samples display good ability for electrochemical process when used as cathode in lithium-ion battery. The low diameter of rhombohedral structure channels is balanced by an appropriate mesoporous texture and a capacity of 225 mAh.g−1 after 5 cycles for a discharge cut-off of 2.5 V vs. Li+/Li at a current density of C/20 has been obtained and stabilized at 95 mAh.g−1 after 116 cycles. [Display omitted] •We investigated the synthesis of rhombohedral FeF3 by solid–gas reaction from iron disilicide.•We demonstrated that depending on the fluorination temperature various phases are stabilized.•We got a hierarchized macroporous/mesoporous texture.•We studied the electrochemical performances of amorphous and crystallized FeF3.•Crystallized FeF3 presents a high faradic yield at first cycle focusing on insertion process.