Encyclopedia of electrochemical power sources. Part II

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Elsevier Science & Technology, 2009. — 4538 p. — ISBN10 0444520937; ISBN13 9780444520937
Publisher's Summary
"The Encyclopedia of Electrochemical Power Sources" is a truly interdisciplinary reference for those working with batteries, fuel cells, electrolyzers, supercapacitors, and photo-electrochemical cells. With a focus on the environmental and economic impact of electrochemical power sources, this five-volume work consolidates coverage of the field and serves as an entry point to the literature for professionals and students alike. It covers the main types of power sources, including their operating principles, systems, materials, and applications. It serves as a primary source of information for electrochemists, materials scientists, energy technologists, and engineers. It incorporates nearly 350 articles, with timely coverage of such topics as environmental and sustainability considerations.
Table of Contents
Measurement Methods: Electrochemical: Impedance Spectroscopy.
Measurement Methods: Electrochemical: Linear Sweep and Cyclic Voltammetry.
Measurement Methods: Electrochemical: Potential and Current Steps.
Measurement Methods: Electrochemical: Quartz Microbalance.
Measurement Methods: Electronic and Chemical Properties: X-Ray Photoelectron Spectroscopy.
Measurement Methods: Structural Properties: Atomic Force Microscopy.
Measurement Methods: Structural Properties: X-Ray and Neutron Diffraction.
Measurement Methods: Structural Properties: Neutron and Synchrotron Imaging, in-Situ for Water Visualization.
Measurement Methods: Structural and Chemical Properties: Scanning Electron Microscopy.
Measurement Methods: Structural and Chemical Properties: Transmission Electron Microscopy.
Measurement Methods: Structural Plus Electronic and Chemical Properties: X-Ray Absorption Spectroscopy.
Measurement Methods: Vibrational Properties: Raman and Infra Red.
Measurement Methods: In-Situ Characterization of Battery Materials.
Photoelectrochemical Cells: Overview.
Photoelectrochemical Cells: Dye-Sensitized Cells.
Primary Batteries: Overview.
Primary Batteries – Aqueous System: Alkaline Manganese–Zinc.
Primary Batteries – Aqueous System: Leclanché and Zinc–Carbon.
Primary Batteries – Aqueous Systems: Zinc–Air.
Primary Batteries – Aqueous Systems: Zinc–Mercury.
Primary Batteries – Nonaqueous Systems: Lithium Primary: Overview.
Primary Batteries – Nonaqueous Systems: Lithium–Iodine-Polyvinylpyridine.
Primary Batteries – Nonaqueous Systems: Lithium–Manganese Dioxide.
Primary Batteries – Nonaqueous Systems: Lithium–Polycarbon Monofluoride.
Primary Batteries – Nonaqueous Systems: Lithium–Vanadium/Silver Oxides.
Primary Batteries – Nonaqueous Systems: Lithium–Sulfur/Chlorine.
Primary Batteries – Nonaqueous Systems: Solid-State: Silver–Iodine.
Thermally Activated Batteries: Overview.
Primary Batteries – Reserve Systems: Thermally Activated Batteries: Calcium.
Primary Batteries – Reserve Systems: Thermally Activated Batteries: Lithium.
Primary Batteries – Reserve Systems: Seawater Activated Batteries: Magnesium.
Recycling: Lead–Acid Batteries: Overview.
Recycling: Lead–Acid Batteries: Electrochemical.
Recycling: Lithium and Nickel–Metal Hydride Batteries.
Recycling: Nickel–Metal Hydride Batteries.
Recycling: Noble Metal Recycling.
Safety: Cell Reversal.
Safety: High Voltage.
Safety: Materials Toxicity.
Safety: Thermal Runaway.
Secondary Batteries: Magnesium Batteries (Secondary and Primary).
Secondary Batteries – High Temperature Systems: Sodium–Sulfur.
Secondary Batteries – High Temperature Systems: Sodium–Nickel Chloride.
Secondary Batteries – High Temperature Systems: Safety.
Secondary Batteries – High Temperature Systems: Alkali Metal Thermal to Electric Energy Converter.
Secondary Batteries – Metal-Air Systems: Overview (Secondary and Primary).
Secondary Batteries – Metal-Air Systems: Bifunctional Oxygen Electrodes.
Secondary Batteries – Metal-Air Systems: Iron–Air (Secondary and Primary).
Secondary Batteries – Metal-Air Systems: Lithium–Air.
Secondary Batteries – Metal-Air Systems: Zinc–Air: Electrical Recharge.
Secondary Batteries – Metal-Air Systems: Zinc–Air: Hydraulic Recharge.
Secondary Batteries – Nickel Systems: Electrodes: Nickel.
Secondary Batteries – Nickel Systems: Electrodes: Cadmium.
Secondary Batteries – Nickel Systems: Electrodes: Iron.
Secondary Batteries – Nickel Systems: Alkaline Battery Separators.
Secondary Batteries – Nickel Systems: Nickel–Cadmium: Overview.
Secondary batteries – Nickel Systems: Nickel–Cadmium: Sealed.
Secondary batteries – Nickel Systems: Nickel–Hydrogen.
Secondary Batteries – Nickel Systems: Nickel–Metal Hydride: Overview.
Secondary Batteries – Nickel Systems: Nickel–Metal Hydride: Metal Hydrides.
Secondary Batteries – Nickel Systems: Nickel–Iron.
Secondary Batteries – Nickel Systems: Nickel–Zinc.
Secondary Batteries – Nickel Systems: Memory Effect.
Secondary Batteries – Lead–Acid Systems: Overview.
Secondary Batteries – Lead–Acid Systems: Negative Electrode.
Secondary Batteries – Lead–Acid Systems: Positive Electrode.
Secondary Batteries – Lead–Acid Systems: Electrode Design.
Secondary Batteries – Lead–Acid Systems: Electrolyte.
Secondary Batteries – Lead–Acid Systems: Separators.
Secondary Batteries – Lead–Acid Systems: Phosphoric Acid Influence.
Secondary Batteries – Lead–Acid Systems: Carbon Additives.
Secondary Batteries – Lead–Acid Systems: Lead Alloys.
Secondary Batteries – Lead–Acid Systems: Grid Production.
Secondary Batteries – Lead–Acid Systems: Curing and Formation.
Secondary Batteries – Lead–Acid Systems: Flooded Batteries.
Secondary Batteries – Lead–Acid Systems: Performance.
Secondary Batteries – Lead–Acid Systems: Valve–Regulated Batteries: Oxygen Cycle.
Secondary Batteries – Lead–Acid Systems: Valve–Regulated Batteries: Absorptive Glass Mat.
Secondary Batteries – Lead–Acid Systems: Valve-Regulated Batteries: Gel.
Secondary Batteries – Lead–Acid Systems: Catalytic Valves.
Secondary Batteries – Lead–Acid Systems: Flow Batteries.
Secondary Batteries – Lead–Acid Systems: Bipolar Batteries.
Secondary Batteries – Lead–Acid Systems: Supercap Hybrid (UltrabatteryTM).
Secondary Batteries – Lead–Acid Systems: Charging.
Secondary Batteries – Lead–Acid Systems: Coup De Fouet.
Secondary Batteries – Lead–Acid Systems: State-of-Charge/Health.
Secondary Batteries – Lead–Acid Systems: Lifetime Determining Processes.
Secondary Batteries – Lead–Acid Systems: Modeling.
Secondary Batteries – Lead–Acid Systems: Automotive Batteries: Conventional.
Secondary Batteries – Lead–Acid Systems: Automotive Batteries: New Developments.
Secondary Batteries – Lead–Acid Systems: Stationary Batteries.
Secondary Batteries – Lithium Rechargeable Systems: Overview.
Secondary Batteries – Lithium Rechargeable Systems: Negative Electrodes: Lithium Metal.
Secondary Batteries – Lithium Rechargeable Systems: Positive Electrodes: Vanadium Oxides.
Secondary Batteries – Lithium Rechargeable Systems: Electrolytes: Overview.
Secondary Batteries – Lithium Rechargeable Systems: Electrolytes: Nonaqueous.
Secondary Batteries – Lithium Rechargeable Systems: Electrolytes: Ionic Liquids.
Secondary Batteries – Lithium Rechargeable Systems: Electrolytes: Additives.
Secondary Batteries – Lithium Rechargeable Systems: Electrolytes: Single Lithium Ion.
Secondary Batteries – Lithium Rechargeable Systems: Electrolytes: Solid Sulfide.
Secondary Batteries – Lithium Rechargeable Systems: Electrolytes: Glass.
Secondary Batteries – Lithium Rechargeable Systems: Lithium–Iron sulfide.
Secondary Batteries – Lithium Rechargeable Systems: Lithium–Organic Sulfur.
Secondary Batteries – Lithium Rechargeable Systems: Lithium–Sulfur.
Secondary Batteries – Lithium Rechargeable Systems: All-Solid State Battery.
Secondary Batteries – Lithium Rechargeable Systems: Lithium Polymer Batteries.
Secondary Batteries – Lithium Rechargeable Systems: Hazards and Protection Circuits.
Secondary Batteries – Lithium Rechargeable Systems – Lithium-Ion: Overview.
Secondary Batteries – Lithium Rechargeable Systems – Lithium-Ion: Negative Electrodes: Carbon.
Secondary Batteries – Lithium Rechargeable Systems – Lithium-Ion: Negative Electrodes: Graphite.
Secondary Batteries – Lithium Rechargeable Systems – Lithium-Ion: Negative Electrode: Spinel-Type Titanium Oxides.
Secondary Batteries – Lithium Rechargeable Systems – Lithium-Ion: Negative Electrode: Titanium-Based Materials.
Secondary Batteries – Lithium Rechargeable Systems – Lithium-Ion: Negative Electrodes: Lithium Alloys.
Secondary Batteries – Lithium Rechargeable Systems – Lithium-Ion: Positive Electrode: High-Voltage Materials.
Secondary Batteries – Lithium Rechargeable Systems – Lithium-Ion: Positive Electrode: Layered Metal Oxides.
Secondary Batteries – Lithium Rechargeable Systems – Lithium-Ion: Positive Electrode: Layered Mixed Metal Oxides.
Secondary Batteries – Lithium Rechargeable Systems – Lithium-Ion: Positive Electrode: Lithium Cobalt Oxide.
Secondary Batteries – Lithium Rechargeable Systems – Lithium-Ion: Positive Electrode: Lithium Iron Phosphate.
Secondary Batteries – Lithium Rechargeable Systems – Lithium-Ion: Positive Electrode: Lithium Nickel Oxide.
Secondary Batteries – Lithium Rechargeable Systems – Lithium-Ion: Positive Electrode: Manganese Oxides.
Secondary Batteries – Lithium Rechargeable Systems – Lithium-Ion: Positive Electrode: Manganese Spinel Oxides.
Secondary Batteries – Lithium Rechargeable Systems – Lithium-Ion: Electrolytes: Solid Oxide.
Secondary Batteries – Lithium Rechargeable Systems – Lithium-Ion: Positive Electrode: Nanostructured Transition Metal Oxides.
Secondary Batteries – Lithium Rechargeable Systems – Lithium-Ion: Separators.
Secondary Batteries – Lithium Rechargeable Systems – Lithium-Ion: Lithium Vanadium Oxide/Niobium Oxide Batteries.
Secondary Batteries – Lithium Rechargeable Systems – Lithium-Ion: Lithium-Ion Polymer Batteries.
Secondary Batteries – Lithium Rechargeable Systems – Lithium-Ion: Inorganic Electrolyte Batteries.
Secondary Batteries – Lithium Rechargeable Systems – Lithium-Ion: Aging Mechanisms.
Secondary Batteries – Lithium Rechargeable Systems – Lithium-Ion: Overcharge Protection Shuttles.
Secondary Batteries – Lithium Rechargeable Systems – Lithium-Ion: Thermal Runaway.
Secondary Batteries – Lithium Rechargeable Systems – Lithium-Ion: Lifetime Prediction.
Secondary Batteries – Flow Systems: Overview.
Secondary Batteries – Flow Systems: Vanadium Redox-Flow Batteries.
Secondary Batteries – Zinc Systems: Zinc Electrodes: Overview.
Secondary Batteries – Zinc Systems: Zinc Electrodes: Solar Thermal Production.
Secondary Batteries – Zinc Systems: Zinc–Bromine.
Secondary Batteries – Zinc Systems: Zinc–Manganese.
Secondary Batteries – Zinc Systems: Zinc–Silver.
Secondary Batteries: Overview.
Secondary Batteries: Super-Iron Batteries.

Author(s): Dyer C.K. (Ed.)

Language: English
Commentary: 1937755
Tags: Химия и химическая промышленность;Электрохимия;Химические источники тока