Please use this identifier to cite or link to this item: http://repo.lib.jfn.ac.lk/ujrr/handle/123456789/8931
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dc.contributor.authorKuganathan, N.-
dc.contributor.authorRaveena, S.-
dc.contributor.authorIyngaran, P.-
dc.date.accessioned2023-01-31T05:42:04Z-
dc.date.available2023-01-31T05:42:04Z-
dc.date.issued2022-
dc.identifier.citationKuganathan, N.; Sukumar, R.; Iyngaran, P. Defect Properties of Li2NiGe3O8. Clean Technol. 2022, 4, 619–628. https://doi.org/10.3390/ cleantechnol4030038en_US
dc.identifier.urihttp://repo.lib.jfn.ac.lk/ujrr/handle/123456789/8931-
dc.description.abstractThere is a growing interest in finding a suitable electrolyte material for the construction of rechargeable Li-ion batteries. Li2NiGe3O8 is a material of interest with modest Li-ionic conductivity. The atomistic simulation technique was applied to understand the defect processes and Li-ion diffusion pathways, together with the activation energies and promising dopants on the Li, Ni, and Ge sites. The Li-Ni anti-site defect cluster was found to be the dominant defect in this material, showing the presence of cation mixing, which can influence the properties of this material. Li-ion diffusion pathways were constructed, and it was found that the activation energy for a three-dimensional Li-ion migration pathway is 0.57 eV, which is in good agreement with the values reported in the experiment. The low activation energy indicated that Li-ion conductivity in Li2NiGe3O8 is fast. The isovalent doping of Na, Fe and Si on the Li, Ni and Ge sites is energetically favorable. Both Al and Ga are candidate dopants for the formation of Li-interstitials and oxygen vacancies on the Ge site. While Li-interstitials can improve the capacity of batteries, oxygen vacancies can promote Li-ion diffusion.en_US
dc.language.isoenen_US
dc.publisherMDPIen_US
dc.subjectLi2NiGe3O8en_US
dc.subjectLi-ion diffusionen_US
dc.subjectDefectsen_US
dc.subjectDopantsen_US
dc.subjectClassical simulationen_US
dc.titleDefect Properties of Li2NiGe3O8en_US
dc.typeArticleen_US
Appears in Collections:Chemistry

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