Solid State Batteries

I. Plenary Lectures.- Theme 1: Basic Concepts.- Phenomenology of ionic transport in solid-state battery materials.- Structural aspects of ionic transport in solid-state battery materials.- Theme 2: Solid Electrolytes.- Solid electrolytes - a materials introduction.- Ionically conducting inorganic crystalline materials.- Ionically conducting glasses.- Ionically conductive polymers.- Composite materials as solid electrolytes.- Theme 3: Electrode Processes.- Thermodynamic aspects of solid state battery performance.- Electrode processes in solid state cells. I: The metal electrode.- Electrode processes in solid state cells. II: The intercalation electrode.- Porous and composite electrodes for solid state batteries.- Solid state electrodes: A materials introduction.- Theme 4: Electrode materials.- Insertion compounds: Relationship of structure to electrochemistry.- Conductivity in polymeric materials.- Theme 5: Experimental techniques.- D.C. methods of cell characterization. Part I: Evaluation of materials and components.- D.C. methods of cell characterization. Part II: Definition of full cell/battery parameters.- A.C. measurement and analysis techniques.- Non-electrical techniques of cell characterization.- Theme 6: Introduction to batteries.- Battery performance parameters.- Competitive systems:Primary batteries.- Competitive systems: Ambient temperature rechargeable batteries.- Lithium organic liquid electrolyte batteries.- Competitive systems: High tenperature batteries.- Utilization of conductive polymers in rechargeable batteries.- Energy storage.- Theme 7: Solid-state batteries.- Solid State primary batteries.- Solid-state rechargeable batteries.- Theme 8: New Technology.- Micro-batteries.- Future prospects for all-solid-state batteries.- II. ShortPresentations.- Proton and lithium ion conductors based upon the AM2IV (PO4)3 type structure.- Conductivity of modified lithium iodide samples.- Activation energies of the electrical conductivity of doped beta? alumina samples.- Phase transition and ionic conductivity of the spinel system Li2-2xMgl+xCl4.- Lithium insertion compounds of the high and low temperature polymorphs of LiFeSn04.- Transport properties of lithium intercalated InSe.- Oxide electrodes at high temperatures.- Structure, electrical and electrochemical properties of AgxNbS2.- Photoelectrochemical intercalation reactions and their possible applications.- Investigation of ternary lithium intermetallic systems as solid state cathode materials.- Fractal geometry and kinetics.- Solid state electrochemical applications of EXAFS.- Measurement of chemical diffusion coefficients by the point electrode technique.- Thin film cathode material in Li-I2 primary battery.- Models for impedance plots of metal/RbAg4I5/ metal cells.- Ambient temperature polymer solid state batteries.- III. Formal Discussion Group Reports.- Solid electrolytes.- Electrode processes and materials.- Experimental techniques.- Ambient temperature batteries.- High temperature batteries.- Future energy scenarios.- Role of batteries in electronic circuitry.- The future of batteries.- List of participants.