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      Quantum mechanic tunneling and efficiency of Faraday current-generating process in porous nanostructures

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          Abstract

          Thermodynamics and kinetics of lithium intercalation into C--SiO\(_2\) nanocomposites are investigated. Dependencies of both differential capacity and intercalation kinetics on the nanocomposite size are established. The processes are analyzed in terms of the impedance model. The obtained results are explained based on the quantum effect of interference blockade of electron tunneling into a nonmetallic nanoparticle. Propositions for the new electrochemical energy storage technology are presented.

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          Nano-FeS[sub 2] for Commercial Li/FeS[sub 2] Primary Batteries

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            Journal
            25 June 2011
            Article
            10.5488/CMP.14.23705
            1106.5142
            74badf04-56fe-4873-8ac6-a2c9514bb86a

            http://arxiv.org/licenses/nonexclusive-distrib/1.0/

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            Condens. Matter Phys., 2011, vol. 14, No. 2, 23705:1-12
            12 pages, 10 figures
            cond-mat.mes-hall

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