We study the changes in electrodynamic responses due to Li insertion into layered alpha-MoO3. We compute electronic and dielectric properties, including the optical conductivity response of pure and lithiated oxides Li2MoO3, as a means to understand and reproduce the charge-discharge profiles observed in experiments. We unravel a 2-electron mechanism of Mo(VI) center reduction, which suggests Li substitution by divalent cations as a route towards cycling optimization. Along this line we provide a general paradigm for battery material characterization using first principles techniques based on optics, which can be advantageously used for example in high-throughput material screening approaches.
A two-electron mechanism of lithium insertion into layered alpha-MoO3: a DFT and DFT+U study
Baldoni Matteo;
2013
Abstract
We study the changes in electrodynamic responses due to Li insertion into layered alpha-MoO3. We compute electronic and dielectric properties, including the optical conductivity response of pure and lithiated oxides Li2MoO3, as a means to understand and reproduce the charge-discharge profiles observed in experiments. We unravel a 2-electron mechanism of Mo(VI) center reduction, which suggests Li substitution by divalent cations as a route towards cycling optimization. Along this line we provide a general paradigm for battery material characterization using first principles techniques based on optics, which can be advantageously used for example in high-throughput material screening approaches.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
