2022
DOI: 10.1021/acs.inorgchem.2c02142
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Deciphering Fast Ion Transport in Glasses: A Case Study of Sodium and Silver Vitreous Sulfides

Abstract: High-capacity solid-state batteries are promising future products for large-scale energy storage and conversion. Sodium fast ion conductors including glasses and glass ceramics are unparalleled materials for these applications. Rational design and tuning of advanced sodium sulfide electrolytes need a deep insight into the atomic structure and dynamics in relation with ion-transport properties. Using pulsed neutron diffraction and Raman spectroscopy supported by first-principles simulations, we show that prefer… Show more

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Cited by 9 publications
(10 citation statements)
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“…8. As reported earlier, [56][57][58][59] the FPMD with hybrid functional PBE0 yields good agreement with experimental data for chalcogenide systems. The FPMD replicas in Q-space reproduce well both the positions and amplitudes of oscillations for Q[S X (Q) À 1], Fig.…”
Section: First-principles Molecular Dynamics Modeling Of Glassy and L...supporting
confidence: 85%
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“…8. As reported earlier, [56][57][58][59] the FPMD with hybrid functional PBE0 yields good agreement with experimental data for chalcogenide systems. The FPMD replicas in Q-space reproduce well both the positions and amplitudes of oscillations for Q[S X (Q) À 1], Fig.…”
Section: First-principles Molecular Dynamics Modeling Of Glassy and L...supporting
confidence: 85%
“…53 The generalized gradient approximation (GGA) and the PBE0 hybrid 54,55 exchange-correlation functional combining the exact Hartree-Fock and DFT approaches were used, providing better agreement with experiment. [56][57][58][59] The Grimme dispersion corrections D3BJ 60 were also employed, improving first-principles molecular dynamics (FPMD) results for chalcogenide systems. 61,62 The applied FPMD technique was similar to previous reports.…”
Section: First-principles Simulationsmentioning
confidence: 99%
“…A recent measurement 38 from 22 Na tracer diffusion on the isochemical Na 2 S−GeS 2 glass led to a value of D Na = 6 × 10 −12 cm 2 s −1 for 10 3 /T = 2.23, i.e., somewhat smaller than our present extrapolated data. However, this can be ascribed to the facts that (i) the glass transition temperatures are different (10 3 /T g = 2.01 and 1.83 for Ge 38 and Si-based 12 glasses, respectively) and (ii) sodium thiosilicate conductivities are usually higher than those of corresponding thiogermanates, 44 which underscores an increased Na mobility/diffusivity in the former. For the 56Na 2 S−44SiS 2 system, 43 the Na diffusivity is 5.83 × 10 −8 cm 2 s −1 at 10 3 /T = 2.11, and as such, in somewhat good agreement with extrapolations of our obtained diffusivities.…”
Section: Resultscontrasting
confidence: 80%
“…All values appear to be of the same order as those calculated from the present MSDs. A recent measurement from 22 Na tracer diffusion on the isochemical Na 2 S–GeS 2 glass led to a value of D Na = 6 × 10 –12 cm 2 s –1 for 10 3 /T = 2.23, i.e., somewhat smaller than our present extrapolated data. However, this can be ascribed to the facts that (i) the glass transition temperatures are different (10 3 / T g = 2.01 and 1.83 for Ge and Si-based glasses, respectively) and (ii) sodium thiosilicate conductivities are usually higher than those of corresponding thiogermanates, which underscores an increased Na mobility/diffusivity in the former.…”
Section: Resultscontrasting
confidence: 78%
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