Solid State Ionics: from Michael Faraday to green energy—the European dimension
Li, Q. Power Sources 97—98 , — Kanehori, K. Titanium disulfide films fabricated by plasma CVD. Ohtsuka, H. Solid State Ionics 35 , — Akridge, J. Solid state batteries using vitreous solid electrolytes. Solid State Ionics 28—30 , — Fabrication and characterization of amorphous lithium electrolyte thin-films and rechargeable thin-film batteries. Power Sources 43 , — Thin-film lithium and lithium-ion batteries. Solid State Ionics , 33—45 Preferred orientation of polycrystalline LiCoO2 films.
Lithium borophosphate vitreous electrolytes. Power Sources 14 , 87—91 Tealdi, C. Yoon, Y. Characterization of lithium borophosphate glass thin film electrolytes deposited by RF-magnetron sputtering for micro-batteries. Fleutot, B. Lithium borophosphate thin film electrolyte as an alternative to LiPON for solder-reflow processed lithium-ion microbatteries. Solid State Ionics , 49—55 Aaltonen, T. Lanthanum titanate and lithium lanthanum titanate thin films grown by atomic layer deposition.
Hamalainen, J. Lithium phosphate thin films grown by atomic layer deposition. Comstock, D. Mechanistic study of lithium aluminum oxide atomic layer deposition.
C , — Atomic layer deposition of Li2O—Al2O3 thin films. Perng, Y. Synthesis of ion conducting Li x Al y Si z O thin films by atomic layer deposition. Kozen, A. Atomic layer deposition of the solid electrolyte LiPON. This paper demonstrates an emerging technique atomic layer deposition for the fabrication of lithium phosphorus oxynitride LiPON thin-film solid electrolyte.
Haruyama, J. Space—charge layer effect at interface between oxide cathode and sulfide electrolyte in all-solid-state lithium-ion battery. Intefacial observation between LiCoO2 electrode and Li2S—P2S5 solid electrolytes of all-solid-state lithium secondary batteries using transmission electron microscopy.
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Kitaura, H. Improvement of electrochemical performance of all-solid-state lithium secondary batteries by surface modification of LiMn2O4 positive electrode. Barghamadi, M. Lithium—sulfur batteries—the solution is in the electrolyte, but is the electrolyte a solution?
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Yamaguchi, Y. Nagao, M. In situ SEM study of a lithium deposition and dissolution mechanism in a bulk-type solid-state cell with a Li2S—P2S5 solid electrolyte.
Sahu, G. Air-stable, high-conduction solid electrolytes of arsenic-substituted Li4SnS4. Takahara, H. All-solid-state lithium secondary battery using oxysulfide glass. Addition and coating of carbon to positive electrode. Jung, Y.
Pdf Solid State Electrochemistry Ii Electrodes Interfaces And Ceramic Membranes First Edition
Thermo-electrochemical activation of an In—Cu intermetallic electrode for the anode in lithium secondary batteries. Takada, K. Solid-state lithium battery with graphite anode. Compatibility of lithium ion conductive sulfide glass with carbon-lithium electrode.
Baba, M. Fabrication and electrochemical characteristics of all-solid-state lithium-ion rechargeable batteries composed of LiMn2O4 positive and V2O5 negative electrodes. Ohta, N.
Handbook of Solid State Electrochemistry
Enhancement of the high-rate capability of solid-state lithium batteries by nanoscale interfacial modification. Progress and prospective of solid-state lithium batteries. Acta Mater. Santosh, K. Electrode-electrolyte interface for solid state Li-ion batteries: point defects and mechanical strain.
Ebner, M. Visualization and quantification of electrochemical and mechanical degradation in Li ion batteries. Herbert, E. Mechanical characterization of LiPON films using nanoindentation. Thin Solid Films , — Luntz, A.
Interfacial challenges in solid-state Li ion batteries. Gwon, H. Recent progress on flexible lithium rechargeable batteries. This paper provides a review and perspective of flexible lithium-ion batteries and discusses how flexibility can be introduced into each component especially the flexible electrolyte materials of the lithium-ion batteries. Qiu, W. Novel preparation of nanocomposite polymer electrolyte and its application to lithium polymer batteries. Zhang, S. Microporous poly acrylonitrile-methyl methacrylate membrane as a separator of rechargeable lithium battery.
Acta 49 , — Zhou, W. Li, J. Solid electrolyte: the key for high-voltage lithium batteries. Feeling the strain: enhancing ionic transport in olivine phosphate cathodes for Li- and Na-ion batteries through strain effects.