Ab initio self-consistent theory of ionic diffusion in superionic conductors with an internal interface
Identifieur interne : 000136 ( Main/Exploration ); précédent : 000135; suivant : 000137Ab initio self-consistent theory of ionic diffusion in superionic conductors with an internal interface
Auteurs : RBID : ISTEX:10853_1995_Article_BF01184576.pdfAbstract
The kinetic equation of the hopping diffusion in a one-dimensional chain with an internal interface between a superionic conductor and an intercalate, is presented in a new form, which explicitly takes into account the effect of Coulomb correlations. Numerical results are presented for material parameters corresponding to the system: ternary borate glass-indium selenide, which is often used in solid microbatteries.
DOI: 10.1007/BF01184576
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<author><name>M. Balkanski</name>
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<front><div type="abstract" xml:lang="eng">The kinetic equation of the hopping diffusion in a one-dimensional chain with an internal interface between a superionic conductor and an intercalate, is presented in a new form, which explicitly takes into account the effect of Coulomb correlations. Numerical results are presented for material parameters corresponding to the system: ternary borate glass-indium selenide, which is often used in solid microbatteries.</div>
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<abstract lang="eng">The kinetic equation of the hopping diffusion in a one-dimensional chain with an internal interface between a superionic conductor and an intercalate, is presented in a new form, which explicitly takes into account the effect of Coulomb correlations. Numerical results are presented for material parameters corresponding to the system: ternary borate glass-indium selenide, which is often used in solid microbatteries.</abstract>
<relatedItem type="series"><titleInfo type="abbreviated"><title>J Mater Sci</title>
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<titleInfo><title>Journal of Materials Science</title>
<partNumber>Year: 1995</partNumber>
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<partNumber>Number: 9</partNumber>
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<subject usage="primary"><topic>Chemistry</topic>
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<topic>Characterization and Evaluation Materials</topic>
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<identifier type="issn">0022-2461</identifier>
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