Stability and Formation of the Li3PS4/Li, Li3PS4/Li2S, and Li2S/Li Interfaces: A Theoretical Study

Naiara Leticia Marana; Silvia Casassa; Mauro Francesco Sgroi; Lorenzo Maschio; Fabrizio Silveri; Maddalena D’Amore; Anna Maria Ferrari

doi:10.1021/acs.langmuir.3c02354

Stability and Formation of the Li₃PS₄/Li, Li₃PS₄/Li₂S, and Li₂S/Li Interfaces: A Theoretical Study

Naiara Leticia Marana
, Silvia Casassa
, Mauro Francesco Sgroi
, Lorenzo Maschio
, Fabrizio Silveri
, Maddalena D’Amore
, Anna Maria Ferrari

Research output: Contribution to journal › Article › peer-review

Abstract

Solid electrolytes have shown superior behavior and many advantages over liquid electrolytes, including simplicity in battery design. However, some chemical and structural instability problems arise when solid electrolytes form a direct interface with the negative Li-metal electrode. In particular, it was recognized that the interface between the β-Li₃PS₄ crystal and lithium anode is quite unstable and tends to promote structural defects that inhibit the correct functioning of the device. As a possible way out of this problem, we propose a material, Li₂S, as a passivating coating for the Li/β-Li₃PS₄ interface. We investigated the mutual affinity between Li/Li₂S and Li₂S/β-Li₃PS₄ interfaces by DFT methods and investigated the structural stability through the adhesion energy and mechanical stress. Furthermore, a topological analysis of the electron density identified preferential paths for the migration of Li ions.

Original language	English
Pages (from-to)	18797-18806
Number of pages	10
Journal	Langmuir
Volume	39
Issue number	51
DOIs	https://doi.org/10.1021/acs.langmuir.3c02354
Publication status	Published - 26 Dec 2023
Externally published	Yes

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10.1021/acs.langmuir.3c02354

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title = "Stability and Formation of the Li3PS4/Li, Li3PS4/Li2S, and Li2S/Li Interfaces: A Theoretical Study",

abstract = "Solid electrolytes have shown superior behavior and many advantages over liquid electrolytes, including simplicity in battery design. However, some chemical and structural instability problems arise when solid electrolytes form a direct interface with the negative Li-metal electrode. In particular, it was recognized that the interface between the β-Li3PS4 crystal and lithium anode is quite unstable and tends to promote structural defects that inhibit the correct functioning of the device. As a possible way out of this problem, we propose a material, Li2S, as a passivating coating for the Li/β-Li3PS4 interface. We investigated the mutual affinity between Li/Li2S and Li2S/β-Li3PS4 interfaces by DFT methods and investigated the structural stability through the adhesion energy and mechanical stress. Furthermore, a topological analysis of the electron density identified preferential paths for the migration of Li ions.",

author = "Marana, \{Naiara Leticia\} and Silvia Casassa and Sgroi, \{Mauro Francesco\} and Lorenzo Maschio and Fabrizio Silveri and Maddalena D{\textquoteright}Amore and Ferrari, \{Anna Maria\}",

note = "Publisher Copyright: {\textcopyright} 2023 The Authors. Published by American Chemical Society",

year = "2023",

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day = "26",

doi = "10.1021/acs.langmuir.3c02354",

language = "English",

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TY - JOUR

T1 - Stability and Formation of the Li3PS4/Li, Li3PS4/Li2S, and Li2S/Li Interfaces

T2 - A Theoretical Study

AU - Marana, Naiara Leticia

AU - Casassa, Silvia

AU - Sgroi, Mauro Francesco

AU - Maschio, Lorenzo

AU - Silveri, Fabrizio

AU - D’Amore, Maddalena

AU - Ferrari, Anna Maria

PY - 2023/12/26

Y1 - 2023/12/26

N2 - Solid electrolytes have shown superior behavior and many advantages over liquid electrolytes, including simplicity in battery design. However, some chemical and structural instability problems arise when solid electrolytes form a direct interface with the negative Li-metal electrode. In particular, it was recognized that the interface between the β-Li3PS4 crystal and lithium anode is quite unstable and tends to promote structural defects that inhibit the correct functioning of the device. As a possible way out of this problem, we propose a material, Li2S, as a passivating coating for the Li/β-Li3PS4 interface. We investigated the mutual affinity between Li/Li2S and Li2S/β-Li3PS4 interfaces by DFT methods and investigated the structural stability through the adhesion energy and mechanical stress. Furthermore, a topological analysis of the electron density identified preferential paths for the migration of Li ions.

AB - Solid electrolytes have shown superior behavior and many advantages over liquid electrolytes, including simplicity in battery design. However, some chemical and structural instability problems arise when solid electrolytes form a direct interface with the negative Li-metal electrode. In particular, it was recognized that the interface between the β-Li3PS4 crystal and lithium anode is quite unstable and tends to promote structural defects that inhibit the correct functioning of the device. As a possible way out of this problem, we propose a material, Li2S, as a passivating coating for the Li/β-Li3PS4 interface. We investigated the mutual affinity between Li/Li2S and Li2S/β-Li3PS4 interfaces by DFT methods and investigated the structural stability through the adhesion energy and mechanical stress. Furthermore, a topological analysis of the electron density identified preferential paths for the migration of Li ions.

UR - https://www.scopus.com/pages/publications/85180084752

U2 - 10.1021/acs.langmuir.3c02354

DO - 10.1021/acs.langmuir.3c02354

M3 - Article

SN - 0743-7463

VL - 39

SP - 18797

EP - 18806

JO - Langmuir

JF - Langmuir

IS - 51

ER -

Stability and Formation of the Li₃PS₄/Li, Li₃PS₄/Li₂S, and Li₂S/Li Interfaces: A Theoretical Study

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