The role of phosphorus in the solid electrolyte interphase of argyrodite solid electrolytes. [PDF]
Abstract The solid electrolyte interphase that forms on Li6PS5Cl argyrodite solid electrolytes has been reported to continually grow through a diffusion-controlled process, yet this process is not fully understood. Here, we use a combination of electrochemical and X-ray photoelectron spectroscopy techniques to elucidate the role of phosphorus
Burton M +8 more
europepmc +4 more sources
Solid electrolyte interphase in water-in-salt electrolytes [PDF]
The water-in-salt strategy successfully expands the electrochemical window of the aqueous electrolyte from 1.23 to ∼3.0 V, which can lead to a breakthrough in the energy output of the aqueous battery system while maintaining the advantage of high safety.
Dezhong Liu, Lixia Yuan, Yunhui Huang
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Dynamics and morphology of solid electrolyte interphase (SEI) [PDF]
We develop a novel modeling scheme for the formation the solid electrolyte interphase (SEI) on lithium ion battery anodes. Our model is based on two transport mechanisms and predicts SEI morphology evolution in a spatially resolved way.
Single, Fabian +2 more
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How Solid-Electrolyte Interphase Forms in Aqueous Electrolytes
Solid-electrolyte interphase (SEI) is the key component that enables all advanced electrochemical devices, the best representative of which is Li-ion battery (LIB). It kinetically stabilizes electrolytes at potentials far beyond their thermodynamic stability limits, so that cell reactions could proceed reversibly.
Liumin Suo +15 more
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Identifying the Mechanism of Continued Growth of the Solid–Electrolyte Interphase [PDF]
AbstractContinued growth of the solid–electrolyte interphase (SEI) is the major reason for capacity fade in modern lithium‐ion batteries. This growth is made possible by a yet unidentified transport mechanism that limits the passivating ability of the SEI towards electrolyte reduction.
Single, Fabian +2 more
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Electrolyte decomposition and solid electrolyte interphase revealed by mass spectrometry [PDF]
Abstract Non-aqueous electrolyte liquids such as carbonate solvents have been widely employed in the commercial lithium-ion batteries and in the development of next-generation rechargeable batteries. The decomposition products of the organic electrolyte and additive molecules contribute to the formation of solid electrolyte interphases (SEIs) on the ...
Chen Fang +3 more
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Porosity of Solid Electrolyte Interphases on Alkali Metal Electrodes with Liquid Electrolytes
Despite the fact that solid electrolyte interphases (SEIs) on alkali metals (Li and Na) are of great importance in the utilization of batteries with high energy density, growth mechanism of SEIs under an open-circuit potential important for the shelf life and the nature of ionic transport through SEIs are yet poorly understood. In this work, SEIs on Li/
Kyungmi Lim +3 more
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Interfaces and Interphases in All-Solid-State Batteries with Inorganic Solid Electrolytes [PDF]
All-solid-state batteries (ASSBs) have attracted enormous attention as one of the critical future technologies for safe and high energy batteries. With the emergence of several highly conductive solid electrolytes in recent years, the bottleneck is no longer Li-ion diffusion within the electrolyte. Instead, many ASSBs are limited by their low Coulombic
Abhik Banerjee +4 more
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Lithium metal stripping beneath the solid electrolyte interphase [PDF]
Significance This study explores the stripping of lithium anodes under various current densities and in different liquid electrolyte systems. We discovered nanovoid formation between the lithium and the solid electrolyte interphase (SEI). Lithium polarization behavior has been systematically investigated with a three-electrode system and ...
Feifei Shi +6 more
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Potential Dependence of the Impedance of Solid Electrolyte Interphase in Some Electrolytes
The dependence of the impedances of lithium phosphorous oxynitride (LiPON) thin film and solid electrolyte interphase (SEI) formed by decomposition of some electrolytes on the electrode potential was investigated by electrochemical impedance spectroscopy. A LiPON thin film was prepared on a Ni electrode by radio frequency magnetron sputtering of Li3PO4
FURUYA, Ryota +2 more
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