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Lithium batteries and the solid electrolyte interphase (SEI)—progress and outlook
Interfacial dynamics within chemical systems such as electron and ion transport processes
have relevance in the rational optimization of electrochemical energy storage materials and …
have relevance in the rational optimization of electrochemical energy storage materials and …
Modeling the solid electrolyte interphase: Machine learning as a game changer?
The solid electrolyte interphase (SEI) is a complex passivation layer that forms in situ on
many battery electrodes such as lithium‐intercalated graphite or lithium metal anodes. Its …
many battery electrodes such as lithium‐intercalated graphite or lithium metal anodes. Its …
Data-driven prediction of formation mechanisms of lithium ethylene monocarbonate with an automated reaction network
X ** in Amorphous Silicon Nitride
Despite the widespread use of charge‐trap flash (CTF) memory, the atomistic mechanism
behind the exceptionally stable charge storage at the localized trap sites is still controversial …
behind the exceptionally stable charge storage at the localized trap sites is still controversial …
Effects of charged interfaces on electrolyte decomposition at the lithium metal anode
Lithium–Sulfur batteries are promising candidates to substitute conventional Li-ion batteries
due to their higher energy density and reduced cost. However, several challenges related to …
due to their higher energy density and reduced cost. However, several challenges related to …
Comparative study of the reductive decomposition reaction of ethylene carbonate in lithium battery electrolyte: a ReaxFF molecular dynamics study
Electrolyte decomposition and subsequent solid electrolyte interphase (SEI) are considered
to be the primary cause of degradation of lithium batteries. We investigate the multiple …
to be the primary cause of degradation of lithium batteries. We investigate the multiple …
Exploring the Solvation Sphere and Spatial Accumulation of Dissolved Transition-Metal Ions in Batteries: A Case Study of Vanadyl Ions Released from V2O5 …
Dissolution of transition-metal ions from Li-ion battery cathodes is a well-known degradation
phenomenon. In addition to capacity decrease due to metal loss in the bulk cathode …
phenomenon. In addition to capacity decrease due to metal loss in the bulk cathode …
Unveiling the molecular mechanism of 1, 3, 2-dioxathiolane 2, 2-dioxide in a propylene carbonate-based battery electrolyte
Propylene carbonate (PC)-based electrolytes are gaining attention as next-generation
electrolytes for use in high-voltage and high-temperature environments due to their superior …
electrolytes for use in high-voltage and high-temperature environments due to their superior …
Identification of LiPF6 Decomposition Products in Li‐Ion Batteries with Endogenous Vanadyl Sensors Using Pulse Electron Paramagnetic Resonance and Density …
The evaluation and enhancement of Li‐ion battery chemistries relies on detailed knowledge
of the chemical processes occurring. Undesired side reactions have to be identified and …
of the chemical processes occurring. Undesired side reactions have to be identified and …
[HTML][HTML] Controlling Gas Generation of Li-Ion Battery through Divinyl Sulfone Electrolyte Additive
The focus of mainstream lithium-ion battery (LIB) research is on increasing the battery's
capacity and performance; however, more effort should be invested in LIB safety for …
capacity and performance; however, more effort should be invested in LIB safety for …