Evidence for the existence of Li2S2 clusters in lithium-sulfur batteries: Ab initio Raman spectroscopy simulation

Partovi-Azar P, Kühne TD, Kaghazchi P (2015)

Publication Type: Journal article

Publication year: 2015

Journal

Physical Chemistry Chemical Physics Royal Society of Chemistry

Book Volume: 17

Pages Range: 22009-22014

Journal Issue: 34

DOI: 10.1039/c5cp02781k

Abstract

Using density functional theory calculations and ab initio molecular dynamics simulations we have studied the structures and the Raman spectra of Li2S4 clusters, which are believed to be the last polysulfide intermediates before the formation of Li2S2/Li2S during the discharge process in Li-S batteries. Raman spectra have been obtained using a new technique to estimate polarizabilities using Wannier functions. We have observed clear evidence of Li2S4 → Li2S2 transition by studying systematic changes in the simulated Raman spectra of (Li2S4)n, n = 1, 4, and 8 towards that of (Li2S2)8. Furthermore, we have shown that the dominant Raman peak of the Li2S2 cluster at ∼440 cm^-1 arises from sulfur-sulfur stretching mode. This peak has been experimentally observed in the discharged state of Li-S batteries and has also been attributed to the formation of Li2S2. We have also demonstrated that the transition is mainly due to the strong electrostatic interactions between Li2S4 monomers, which results in energy lowering by arranging the local Li^+δ-S^-δ dipole moments in an anti-parallel fashion.

Involved external institutions

Universität Paderborn

Germany (DE) Freie Universität Berlin

Germany (DE)

How to cite

APA:

Partovi-Azar, P., Kühne, T.D., & Kaghazchi, P. (2015). Evidence for the existence of Li2S2 clusters in lithium-sulfur batteries: Ab initio Raman spectroscopy simulation. Physical Chemistry Chemical Physics, 17(34), 22009-22014. https://doi.org/10.1039/c5cp02781k

MLA:

Partovi-Azar, Pouya, Thomas D. Kühne, and Payam Kaghazchi. "Evidence for the existence of Li2S2 clusters in lithium-sulfur batteries: Ab initio Raman spectroscopy simulation." Physical Chemistry Chemical Physics 17.34 (2015): 22009-22014.

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