2018
DOI: 10.1039/c7ra12690e
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Dendrite formation in silicon anodes of lithium-ion batteries

Abstract: Rechargeable lithium-ion batteries require a vigorous improvement if we want to use them massively for high energy applications. Silicon and metal lithium anodes are excellent alternatives because of their large theoretical capacity when compared to graphite used in practically all rechargeable Li-ion batteries.However, several problems need to be addressed satisfactorily before a major fabrication effort can be launched; for instance, the growth of lithium dendrites is one of the most important to take care d… Show more

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Cited by 65 publications
(58 citation statements)
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“…Therefore, we use the same MEAM force eld parameters of Li-Li interactions for the interaction between both Limetal and Li + at distances smaller than 2.5 A. E c is the energy per atom, z is the number of nearest neighbors in the reference structure and r c is the cut off distance. The equilibrium distance in a lithium diatomic molecule using a MEAM force eld is 2.419 A, 40 which is close to the experimental distance of 2.672 A. 41 The interactions among the SEI (LiF) atoms are modeled with the Born-Mayer potential, 42…”
Section: Force Eldssupporting
confidence: 55%
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“…Therefore, we use the same MEAM force eld parameters of Li-Li interactions for the interaction between both Limetal and Li + at distances smaller than 2.5 A. E c is the energy per atom, z is the number of nearest neighbors in the reference structure and r c is the cut off distance. The equilibrium distance in a lithium diatomic molecule using a MEAM force eld is 2.419 A, 40 which is close to the experimental distance of 2.672 A. 41 The interactions among the SEI (LiF) atoms are modeled with the Born-Mayer potential, 42…”
Section: Force Eldssupporting
confidence: 55%
“…The interactions between Li-metal atoms and Li-metal atoms with Li + ions are modeled by a second nearest-neighbor (2NN) embedded MEAM force eld, 38,39 as it was used in a previous work. 40 The MEAM interaction is given by the equation:…”
Section: Force Eldsmentioning
confidence: 99%
“…Commonly observed local chemical events include but are not limited to local overcharge/overdischarge, 14,15 oxygen release, 16 local structural transformation, 8,17 domain deactivation, 18 transition metal dissolution/precipitation, 6,8,19,20 and dendrite/whisker/protrusion growth. 21,22 The local regions that undergo these undesired chemical reactions may not account for much of the total mass or volume of the battery materials, but they can significantly impact the deliverable energy through impedance growth as well as undermine the safety characteristics of the battery cells through thermal runaway. 23,24 Oxygen release from charged nickel-rich LiNi1-x-yMnxCoyO2 (NMC) layered oxides, either through gas evolution or participating in electrolyte oxidation, has been reported under thermal abuse conditions 25,26 and aggressively charging to high voltages.…”
Section: Introductionmentioning
confidence: 99%
“…Finally, molecular simulation can be used to explain the factors affecting the formation of lithium dendrites which contains Reproduced with permission. [83] Copyright 2018, Royal Society of Chemistry. current density, temperature, electrolyte components and electrode morphology in microcosmic.…”
Section: Discussionmentioning
confidence: 99%