Resumen:
he predictive power of molecular dynamic simulations is mainly restricted bythe time scale and model accuracy. Many systems of current relevance are of suchcomplexity that requires addressing both issues simultaneously. This is the case ofsilicon electrodes in Li-ion batteries, where different LixSi alloys are formed duringcharge/discharge cycles. While first-principles treatments for this system are seriouslylimited by the computational cost of exploring its large conformational space, classicalforce-fields are not transferable enough to represent it accurately. Density FunctionalTight-Binding (DFTB) is an intermediate complexity approach capable of capturingthe electronic nature of different environments with a relatively low computationalcost. In this work, we present a new set of DFTB parameters suited to model amorphous LixSi alloys. The latter is the usual finding upon cycling the Si electrodes in thepresence of Li-ions. The model parameters are constructed with a particular emp