Finite temperature behavior of impurity doped Lithium cluster viz Li6Sn
Abstract
We have carried out extensive isokinetic ab initio molecular dynamic simulations to investigate the finite temperature properties of the impurity doped cluster Li6Sn along with the host cluster Li7. The data obtained from about 20 temperatures and total simulation time of at least 3 ns is used to extract thermodynamical quantities like canonical specific heat. We observe a substantial charge transfer from all Li atoms to Sn which inturn weakens the Li-Li bonds in Li6Sn compared to the bonds in Li7. This weakening of bonds changes the finite temperature behavior of Li6Sn significantly. Firstly, Li6Sn becomes liquid-like around 250 K, a much lower temperature than that of Li7 (≈~425 K). Secondly, an additional quasirotational motion of lithium atoms appears at lower temperatures giving rise to a shoulder around 50 K in the specific heat curve of Li6Sn. The peak in the specific heat of Li7 is very broad and the specific heat does not show any premelting features.
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