On the Mechanism of Magnesium Storage in Micro- and Nano-Particulate Tin Battery Electrodes.
Francisco NacimientoMarta CabelloCarlos Pérez-VicenteRicardo AlcántaraPedro LavelaGregorio F OrtizJosé Luis TiradoPublished in: Nanomaterials (Basel, Switzerland) (2018)
This study reports on the electrochemical alloying-dealloying properties of Mg₂Sn intermetallic compounds. 119Sn Mössbauer spectra of β-Sn powder, thermally alloyed cubic-Mg₂Sn, and an intermediate MgSn nominal composition are used as references. The discharge of a Mg/micro-Sn half-cell led to significant changes in the spectra line shape, which is explained by a multiphase mechanism involving the coexistence of c-Mg₂Sn, distorted Mg2−δSn, and Mg-doped β-Sn. Capacities and capacity retention were improved by using nanoparticulate tin electrodes. This material reduces significantly the diffusion lengths for magnesium and contains surface SnO and SnO₂, which are partially electroactive. The half-cell potentials were suitable to be combined versus the MgMn₂O₄ cathodes. Energy density and cycling properties of the resulting full Mg-ion cells are also scrutinized.