Crystallographic Dimensionality Determines the Electrochemical Reaction Mechanism in Alkali Transition-Metal Chlorides - Archive ouverte HAL
Article Dans Une Revue Journal of the American Chemical Society Année : 2024

Crystallographic Dimensionality Determines the Electrochemical Reaction Mechanism in Alkali Transition-Metal Chlorides

Résumé

Intense research efforts on transition metal chalcogenides (oxides and sulfides), pnictides (nitrides and phosphides) and fluorides have demonstrated the complex, intertwined effects of structural and chemical changes on their electrochemical response leading to intercalation, conversion or displacement reactions when reacting with lithium. Prior efforts largely left halides unexplored due to their heightened solubility in classical liquid electrolytes. In this work, we employ superconcentrated electrolytes to demonstrate the composition-and structure-dependent electrochemical reactivity of A 2 MCl 4 compounds (A = Li or Na and M = Cr, Mn, Fe and Co).

Comparing four lithiated compounds with different transition metals, we demonstrate that they all undergo conversion reaction when reacting with 2 Li + per formula unit, the reaction being associated with large polarization and limited cycling ability. Nevertheless, combining in situ XRD with post-mortem XPS and HRTEM analysis, we demonstrate that Li 2 CoCl 4 first reacts with one Li + following a displacement reaction providing a reversible capacity of 125 mAh g -1 . This reaction is enabled by the formation of a Li 6 CoCl 8 intermediate, which shares a similar anionic framework as pristine Li 2 CoCl 4 , ensuring the topotactic insertion of Li + balanced by the Co 2+ /Co 0 redox couple and the formation of metallic Co nanoparticles. Comparing these compounds, we propose that two criteria are therefore necessary to trigger the displacement reaction in A 2 MCl 4 compounds: the presence of 1D chains of edge-sharing octahedra to favor electronic delocalization and availability of a metal-deficient intermediate. Screening a multitude of A 2 MCl 4 compounds, we demonstrate the universality of these design principles which extend to Na-ion materials by demonstrating a low-polarization, reversible displacement reaction for Na 2 MnCl 4 when cycled in Na-based superconcentrated electrolyte. Overall, our work provides a broad understanding of structure-

Fichier sous embargo
Fichier sous embargo
0 4 18
Année Mois Jours
Avant la publication
dimanche 11 mai 2025
Fichier sous embargo
dimanche 11 mai 2025
Connectez-vous pour demander l'accès au fichier

Dates et versions

hal-04801098 , version 1 (25-11-2024)

Identifiants

Citer

Michael Spencer, Tae Gyu Yun, Marguerite Flynn, Marie-Liesse Doublet, Alexis Grimaud. Crystallographic Dimensionality Determines the Electrochemical Reaction Mechanism in Alkali Transition-Metal Chlorides. Journal of the American Chemical Society, 2024, 146 (46), pp.32059-32071. ⟨10.1021/jacs.4c13005⟩. ⟨hal-04801098⟩
0 Consultations
0 Téléchargements

Altmetric

Partager

More