Overview of Aqueous and Nonaqueous Batteries and Semiconductors.- Thin Film Technology and Characterization: Their Use in Micro-Ionic Devices.- The Physical Formation Processes of Thin Films, Their Characterization by XPS, AES, and SIMS and Their Applications in Microbatteries.- Study and Characterization of Thin Films of Conductive Glasses with a View to Application in Micro-Ionics.- Chemistry, Physics and Applications of Polymeric Solid Electrolytes to Microbatteries.- The Use of EXAFS in the Study of Polymeric Electrolytes.- Amorphous Room Temperature Polymer Solid Electrolytes.- Designing a Solid Electrolyte I. Quality Criteria and Applications.- Designing a Solid Electrolyte II. Strategies and Illustrations.- Designing a Solid Electrolyte III. Proton Conduction and Composites.- Designing a Solid Electrolyte IV. Designing a Reversible Solid Electrode.- Technology and Physics of Thin Film Insertion Compounds.- Insertion Cathodes for Solid State Microbatteries.- Kinetics Studies of Lithium Insertion in In-Se Thin Films.- The Role of NiPS3 as a Cathode in Secondary Lithium Electrochemical Cells.- Theory and Applications of Amorphous Solid for Electrochemical Cells.- Silver Gallium Thiohypodiphosphate Glasses.- Modeling, Fabrication, and Development of Miniature Ion Sensors.- Solid State Batteries.- Rechargeable Solid State Cells.- The Composite Electrode Theory for Solid State Batteries — Attempted Experimental Verification.- Materials for Microbatteries.- Kinetic Aspects of Solid State Micro-Ionic Devices.- Thin Film Solid State Ionic Gas Sensors.- Solid State Electrochemical In-Situ Techniques for the Evaluation of Microbatteries.- A Warning for the Wagner Polarization Cell.- Microbattery Opportunities in Military Electronics.- Participants.