Influence of structural defects on the insertion behavior of γ-MnO2: comparison of H and Li |
| |
Authors: | S Jouanneau S Sarciaux A Le Gal La Salle D Guyomard |
| |
Institution: | Laboratoire de Chimie des Solides, Institut des Matériaux Jean Rouxel, UMR CNRS 110 2, rue de la Houssiniere, BP 32229- 44322 Nantes Cedex 3- France |
| |
Abstract: | In an attempt to correlate the crystallographic disorder of γ-MnO2 compounds to their cationic uptake, the influence of their structural defects on their lithium and proton insertion behavior has been studied and compared. The rate of structural defects in the starting γ-MnO2 compounds strongly modifies both the voltage vs. cation composition profiles (in terms of shape, average voltage of each electrochemical process, polarization and cycled capacity) and the cycling behavior during the first cycles. This work illustrates that the relationships between structure and cation insertion behavior are different for Li and for proton. The study allows to select for better performing samples in terms of maximum cycled capacity: Li insertion is favored by a very small amount of initial disorder (i.e. a low rate of structural defects in starting compound), while proton insertion requires maximum initial disorder (i.e. an intermediate rate of structural defects). Extrapolation of the results demonstrates the interest of Ramsdellite γ-MnO2 compounds for cathode applications of rechargeable Li batteries. |
| |
Keywords: | Rechargeable batteries Cathode materials Li insertion Proton insertion Manganese oxides Gamma manganese oxide γ-MnO2 EMD CMD HTMD |
本文献已被 ScienceDirect 等数据库收录! |