Computational Study of the Solid Electrolyte Material Li4PS4I 1
ORAL
Abstract
Several recent experimental studies have shown2,3,4 that the incorporation of LiI into lithium thiophosphate electrolytes can improve their stability and ionic conductivity with possible positive implications for battery technology. In this presentation, we report the results of our first principles simulations of the newly sythesized and analyzed3 electrolyte Li4PS4I. The simulations help us understand the structural and ion mobility properties of this material and to study models of interfaces of the material with Li metal. Comparison with previous simulations studies of Li3PS4 electrolytes help identify the effects of LiI.
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2Rangasamy et al. JACS 137, 1384-1387 (2015).
3Sedlmaier et al. Chem. Mater. 29, 1830-1835 (2017).
4Phuc et al. J. Power Sources 365, 7-11 (2017).
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2Rangasamy et al. JACS 137, 1384-1387 (2015).
3Sedlmaier et al. Chem. Mater. 29, 1830-1835 (2017).
4Phuc et al. J. Power Sources 365, 7-11 (2017).
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Presenters
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Natalie A Holzwarth
physics, Wake Forest University, Physics, Wake Forest University, Wake Forest Univ
Authors
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Ahmad Al-Qawasmeh
Physics, Wake Forest University
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Natalie A Holzwarth
physics, Wake Forest University, Physics, Wake Forest University, Wake Forest Univ