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New anode-cathode couples using nonaqueous solvents were investigated for use as secondary batteries for power sources in orbiting satellites. Initial criteria of selection of the couples is based on the theoretical energy-to-weight ratio calculated from the free energy of reaction of anode and cathode, which will be greater than 200 wh/lb. Cells with active metal anodes as alkali metals and light-weight cathodes meet this criteria. Since the electrolyte solution must be compatible with alkali metals; water, alcohols, and acids are excluded from use and nonreactive nonaqueous liquids will be used for the solvent system. A survey of physical properties of liquids indicates that certain nonaqueous systems have a wide temperature range of liquid state, high dielectric constant, and moderate viscosity, but electrical conductivities of nonaqueous solutions are less than othes of aqueous systems. Reversibility of anode and cathode reactions in nonaqueous media was studied by measuring the current efficiency for metal deposition or dissolution as a function of current density. At densities of 20 ma/sq cm, Mg from a Mg ethyl bromide-ethyl ether solution, K from a POCl3-KI system, Al from an AlCl2-n hexylamine-ethyl ether system showed low reversibility. High current efficiences were found for Li electrodeposition from a propylene carbonate Li salt system and for an AlCl3-ethyl pyridinium bromide-toluene system at 20 ma/sq cm current density. After anodic oxidation of many metals, NiCl2 and AgCl were insoluble in the propylene carbonate system; NiCl2 was insoluble in the AlCl3-ethyl pyridinium bromide-toluene solution.
Nonaqueous Electrolytes Handbook, Volume II, is an authoritative and updated information source for nonaqueous solvent systems. The information in this handbook covers literature to 1973 and includes data for some 310 solvent systems. This volume has been organized to include 11 well-defined areas: Solubilities of Electrolytes; EMF and Potentiometric Titrations; Vapor Pressures; Cryoscopy; Heats of Solution Calorimetry; Polarography; Ligand Exchange Rates and Electrode Reactions; Electrical Double Layer; Spectroscopy and Structure of Electrolytes; Organic Electrolyte Battery Systems; and Additional References and Data Sources. The section on polarography is divided further according to inorganic electrolytes, organic electrolytes, and organometallic compounds, in order to present the wealth of data in a concise and orderly manner. As in Volume I, the last section covers additional data sources, reviews, and data and references that were received too late to include in the earlier sections. The method of presentation of material is briefly described in the introduction to each section to facilitate the use of the tabulated information and bibliographies are given at the end of each section. A Compound Index is included.
Storage and conversion are critical components of important energy-related technologies. "Advanced Batteries: Materials Science Aspects" employs materials science concepts and tools to describe the critical features that control the behavior of advanced electrochemical storage systems. This volume focuses on the basic phenomena that determine the properties of the components, i.e. electrodes and electrolytes, of advanced systems, as well as experimental methods used to study their critical parameters. This unique materials science approach utilizes concepts and methodologies different from those typical in electrochemical texts, offering a fresh, fundamental and tutorial perspective of advanced battery systems. Graduate students, scientists and engineers interested in electrochemical energy storage and conversion will find "Advanced Batteries: Materials Science Aspects" a valuable reference.