| Description |
1 online resource (5 volumes) : illustrations (some color) |
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text txt rdacontent |
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computer c rdamedia |
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online resource cr rdacarrier |
| Bibliography |
Includes bibliographical references and index. |
| Note |
Print version record. |
| Contents |
Machine generated contents note: Applications -- Portable: Micro Hybrid Power System: Fuel Cells/Capacitors / T Osaka -- Applications -- Portable: Military: Batteries and Fuel Cells / M Krausa -- Applications -- Portable: Notebooks: Batteries / R J Brodd -- Applications -- Portable: Portable Devices: Batteries / G Pistoia -- Applications -- Portable: Portable Devices: Fuel Cells / J H Jang -- Applications -- Portable: Power Tools: Batteries / W Weydanz -- Applications -- Stationary: Energy Storage Systems: Batteries / C D Parker -- Applications -- Stationary: Remote Area Power Supply: Batteries and Fuel Cells / E Lemaire-Potteau -- Applications -- Stationary: Fuel Cells / A J Appleby -- Applications -- Stationary: Residential Energy Supply: Fuel Cells / L Jorissen -- Applications -- Stationary: Fuel Cell/Gas Turbine Hybrid / J Brouwer -- Applications -- Stationary: Uninterruptible and Back-up Power: Fuel Cells / D Lutterbeck -- ^ |
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Note continued: Applications -- Transportation: Rail Vehicles: Fuel Cells / A R Miller -- Applications -- Transportation: Satellites: Batteries / R C Pandipati -- Applications -- Transportation: Ships: Fuel Cells / W Winkler -- Applications -- Transportation: Solar Cars: Batteries / D A J Rand -- Applications -- Transportation: Submersibles: Batteries / Ø Hasvold -- Batteries: Nomenclature / P Kurzweil -- Batteries: Capacity / H Wenzl -- Batteries: Energy / H Wenzl -- Batteries: Self-Discharge / H Wenzl -- Batteries: Charging Methods / S Genies -- Batteries: Fast Charging / V Svoboda -- Batteries: Charge-Discharge Curves / D U Sauer -- Batteries: Partial-State-of-Charge / E Dickinson -- Batteries: Adaptive State-of-Charge Determination / P H L Notten -- Batteries: Dynamics / A Jossen -- Batteries: Alternating Currents / H A Catherino -- Batteries: Parallel and Series Connections / J McDowall -- Batteries: Modeling / Chee Burm Shin -- Batteries: Lifetime Prediction / H Wenzl -- Batteries: Codes and Standards / C Parker -- Batteries and Fuel Cells: Efficiency / H Wenzl -- Batteries and Fuel Cells: Lifetime / H Wenzl -- Batteries and Fuel Cells: Power / H Wenzl -- Batteries and Fuel Cells: Techno-Economic Assessments / S A Schmid -- Capacitors: Overview / J R Miller -- Capacitors: Electrostatic Solid-State Capacitors / P Kurzweil -- Capacitors: Electrochemical Double-Layer Capacitors / P Kurzweil -- Capacitors: Electrochemical Double-Layer Capacitors: Carbon Materials / P Kurzweil -- Capacitors: Electrochemical Capacitors: Ionic Liquid Electrolytes / F Soavi -- Capacitors: Electrochemical Hybrid Capacitors / P Kurzweil -- Capacitors: Electrochemical Metal Oxides Capacitors / P Kurzweil -- Capacitors: Electrochemical Polymer Capacitors / P Kurzweil -- Capacitors: Application / A Burke |
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Note continued: Chemistry, Electrochemistry, and Electrochemical Applications: Aluminum / N J Bjerruum -- Chemistry, Electrochemistry, and Electrochemical Applications: Carbon / T Takamura -- Chemistry, Electrochemistry, and Electrochemical Applications: Iron / B Hariprakash -- Chemistry, Electrochemistry, and Electrochemical Applications: Hydrogen / O A Petrii -- Chemistry, Electrochemistry, and Electrochemical Applications: Lead / Z Galus -- Chemistry, Electrochemistry, and Electrochemical Applications: Lithium / R J Brodd -- Chemistry, Electrochemistry, and Electrochemical Applications: Manganese / W Taucher-Mautner -- Chemistry, Electrochemistry, and Electrochemical Applications: Nickel / B Riegel -- Chemistry, Electrochemistry, and Electrochemical Applications: Oxygen / A J Appleby -- Chemistry, Electrochemistry, and Electrochemical Applications: Platinum Group Elements / A J Appleby -- ^ Chemistry, Electrochemistry, and Electrochemical Applications: Silver / D S Cameron -- Chemistry, Electrochemistry, and Electrochemical Applications: Zinc / J-Y Huot -- Electrochemical Theory: Thermodynamics / S Panero -- Electrochemical Theory: Double Layer / W Schmickler -- Electrochemical Theory: Kinetics / S Panero -- Electrochemical Theory: Electrokinetics / S Trasatti -- Electrochemical Theory: Electrocrystalization / G Staikov -- Electrochemical Theory: Hydrogen Evolution / S Trasatti -- Electrochemical Theory: Oxygen Evolution / S Trasatti -- Electrochemical Theory: Corrosion / S Virtanen -- Electrochemical Theory: Non Faraday Electrochemical Modification of Catalysts Activity / S Brosda -- Electrodes: 3-D Electrodes Batteries / B Dunn -- Electrodes: Nanoelectrodes / B Scrosati -- Electrodes: Ion-Selective Electrodes / G Clarke -- Electrodes: Porous Electrodes / R E White -- ^ Electrodes: Semiconductor Electrodes / F Decker -- Electrolytes: Overview / M Salomon |
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Note continued: Electrolytes: Gel / S Thomas -- Electrolytes: Ionic Liquids / H Ohno -- Electrolytes: Non-Aqueous / M Salomon -- Electrolytes: Polymer / G Alberti -- Electrolytes: Solid: Mixed Ionic-Electronic Conductors / Elvers-Tiffee -- Electrolytes: Solid: Oxygen Ions / Elvers-Tiffee -- Electrolytes: Solid: Protons / J Tolchard -- Electrolytes: Solid: Sodium Ions / P T Moseley -- Energy: Energy Storage / H Frey -- Energy: Hydrogen Economy / M Conte -- Energy: Cold Fusion -- Precursor to Low-Energy Nuclear Reactions / S B Krivit -- Energy: Cold Fusion: History / S B Krivit -- Fuel Cells -- Overview: Introduction / A J Appleby -- Fuel Cells -- Overview: Lifetime Prediction / M Marrony -- Fuel Cells -- Overview: Modeling / P Costamagna -- Fuel Cells -- Alkaline Fuel Cells: Overview / G Mulder -- Fuel Cells -- Alkaline Fuel Cells: Anion-Exchange Membranes / F Zhao -- Fuel Cells -- Alkaline Fuel Cells: Cells and Stacks / K Kordesch -- Fuel Cells -- Alkaline Fuel Cells: Overview Performance and Operational Conditions / E Gulzow -- Fuel Cells -- Direct Alcohol Fuel Cells: Overview / J B Xu -- Fuel Cells -- Direct Alcohol Fuel Cells: Direct Methanol: Overview / V Gogel -- Fuel Cells -- Direct Alcohol Fuel Cells: Direct Methanol Fuel Cell: Overview Performance and Operational Conditions / C Xu -- Fuel Cells -- Direct Alcohol Fuel Cells: Direct Ethanol Fuel Cells / G Sun -- Fuel Cells -- Direct Alcohol Fuel Cells: Direct Ethanol Fuel Cells: Catalysts / E Antolini -- Fuel Cells -- Direct Alcohol Fuel Cells: Direct Ethylene Glycol Fuel Cells / K Miyazaki -- Fuel Cells -- Direct Alcohol Fuel Cells: New Materials / D Gervasio -- Fuel Cells -- Direct Alcohol Fuel Cells: Experimental Systems / R Chen -- Fuel Cells -- Direct Alcohol Fuel Cells: Modeling / W W Yang -- Fuel Cells -- Molten Carbonate Fuel Cells: Overview / A L Dicks |
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Note continued: Fuel Cells -- Molten Carbonate Fuel Cells: Anodes / M Farooque -- Fuel Cells -- Molten Carbonate Fuel Cells: Cathodes / A L Dicks -- Fuel Cells -- Molten Carbonate Fuel Cells: Cells and Stacks / A L Dicks -- Fuel Cells -- Molten Carbonate Fuel Cells: Systems / G Huppmann -- Fuel Cells -- Molten Carbonate Fuel Cells: Materials and Life Considerations / M Farooque -- Fuel Cells -- Molten Carbonate Fuel Cells: Full-scale Prototypes / H Maru -- Fuel Cells -- Molten Carbonate Fuel Cells: Modeling / M Farooque -- Fuel Cells -- Phosphoric Acid Fuel Cells: Overview / A J Appleby -- Fuel Cells -- Phosphoric Acid Fuel Cells: Anodes / P Kurzweil -- Fuel Cells -- Phosphoric Acid Fuel Cells: Cathodes / T Kuwabara -- Fuel Cells -- Phosphoric Acid Fuel Cells: Electrolytes / T Murahashi -- Fuel Cells -- Phosphoric Acid Fuel Cells: Cells and Stacks / Y Oka -- Fuel Cells -- Phosphoric Acid Fuel Cells: Systems / M Okumura -- Fuel Cells -- Phosphoric Acid Fuel Cells: Performance and Operational Conditions / Y Oka -- Fuel Cells -- Phosphoric Acid Fuel Cells: Life-Limiting Considerations / K Mitsuda -- Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Anodes with Reformate / D Thompsett -- Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Cathodes / M E P Markiewicz -- Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Catalysts: Life-Limiting Considerations / H A Gasteiger -- Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Catalysts: Non Platinum / J-P Dodelet -- Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Membranes / G Alberti -- Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Membranes: Ambient Temperature / J Roziere -- Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Membranes: Advanced Fluorinated / V Arcella -- Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Membranes: Non-Fluorinated / J-C Lepretre |
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Note continued: Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Membranes: Composites / V Ramani -- Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Membranes: Elevated Temperature / E V Niangar -- Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Membranes: Polybenzimidazole / A Magistris -- Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Membranes: Design and Characterization / A M Brenner -- Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Membrane: Life-Limiting Considerations / T A Zawodzinski -- Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Membranes: Modeling / L Pisani -- Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Membranes: Spatially Resolved Measurements / R Hiesgen -- Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Membrane-Electrode Assemblies / R P Ramasamy -- Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Gas Diffusion Layers / D Gervasio -- ^ Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Bipolar Plates / C Jansen -- Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Cells / J W Weidner -- Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Water Management / M M Mench -- Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Life-Limiting Considerations / H Wang -- Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Modeling / N Djilali -- Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Stacks / J St-Pierre -- Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Systems / Z Qi -- Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Overview Performance and Operational Conditions / J St-Pierre -- Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Dynamic Operational Conditions / K A Friedrich -- Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Freeze Operational Conditions / R Alink -- Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Impurities in Fuels and Air / J Zhang -- ^ Fuel Cells -- Proton-Exchange Membrane Fuel Cells: High Temperature PEMFCs / W Lehnert |
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Note continued: Fuel Cells -- Solid Oxide Fuel Cells: Overview / S C Singhal -- Fuel Cells -- Solid Oxide Fuel Cells: Anodes / N M Sammes -- Fuel Cells -- Solid Oxide Fuel Cells: Cathodes / B R Roy -- Fuel Cells -- Solid Oxide Fuel Cells: Membranes / M Kusnezoff -- Fuel Cells -- Solid Oxide Fuel Cells: Cells and Stacks / H Zhu -- Fuel Cells -- Solid Oxide Fuel Cells: Cell Interconnection / S C Singhal -- Fuel Cells -- Solid Oxide Fuel Cells: Gas Distribution / M Spiller -- Fuel Cells -- Solid Oxide Fuel Cells: Internal and External Reformation / R Peters -- Fuel Cells -- Solid Oxide Fuel Cells: Systems / E Riensche -- Fuel Cells -- Solid Oxide Fuel Cells: Life-Limiting Considerations / A Weber -- Fuel Cells -- Solid Oxide Fuel Cells: Modeling / D Froning -- Fuel Cells -- Solid Oxide Fuel Cells: Micro Cells / L J Gauckler -- Fuel Cells -- Exploratory Fuel Cells: Direct Carbon Fuel Cells / G G Botte -- ^ Fuel Cells -- Exploratory Fuel Cells: Formic Acid Fuel Cells / S L Blair -- Fuel Cells -- Exploratory Fuel Cells: Hydrogen-Bromine Fuel Cells / M Goor -- Fuel Cells -- Exploratory Fuel Cells: Sodium Borohydride Fuel Cells / F C Walsh -- Fuel Cells -- Exploratory Fuel Cells: Microbial Fuel Cells / U Schroder -- Fuel Cells -- Exploratory Fuel Cells: Micro-Fuel Cells / Y Sahai -- Fuel Cells -- Exploratory Fuel Cells: Regenerative Fuel Cells / F Barbir -- Fuels -- Hydrogen Production: Autothermal Reforming / N Laosiripojana -- Fuels -- Hydrogen Production: Absorption Enhanced Reforming / M Specht -- Fuels -- Hydrogen Production: Biomass: Thermochemical Processes / A Kruse -- Fuels -- Hydrogen Production: Biomass: Fermentation / W Schnitzhofer -- Fuels -- Hydrogen Production: Coal Gasification / R M Dell -- Fuels -- Hydrogen Production: Natural Gas: Conventional Steam-Reforming / D L Trimm -- ^ Fuels -- Hydrogen Production: Natural Gas: Solar-Thermal Steam Reforming / C Sattler |
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Note continued: Fuels -- Hydrogen Production: Gas Cleaning: Barrier Filters / J N Carras -- Fuels -- Hydrogen Production: Gas Cleaning: Membrane Separators / M D Dolan -- Fuels -- Hydrogen Production: Gas Cleaning: Pressure Swing Adsorption / S D Sharma -- Fuels -- Hydrogen Production: Photothermally and Thermally-Assisted Photovoltaic / S Licht -- Fuels -- Hydrogen Production: Photoelectrolysis / C Fell -- Fuels -- Hydrogen Production: Thermochemical Cycles / M Roeb -- Fuels -- Hydrogen Production: Water Electrolysis / T Smolinka -- Fuels -- Hydrogen Storage: Compressed / N Sirosh -- Fuels -- Hydrogen Storage: Liquid / L Bonadio -- Fuels -- Hydrogen Storage: Hydrides / A Zuttel -- Fuels -- Hydrogen Storage: High Temperature Hydrides / T Klassen -- Fuels -- Hydrogen Storage: Complex Hydrides / H Fujii -- Fuels -- Hydrogen Storage: Carbon Materials / M Hirscher -- Fuels -- Hydrogen Storage: Glass Microspheres / M M Hall -- Fuels -- Hydrogen Storage: Metal-Organic Frameworks / M Hirscher -- Fuels -- Hydrogen Storage: Zeolites J Weitkamp -- Fuels -- Hydrogen Storage: Chemical Carriers / T A Semelsberger -- Fuels -- Safety: Hydrogen: Overview / U Schmidtchen -- Fuels -- Safety: Hydrogen: Transportation / U Schmidtchen -- History: Electrochemistry / P Kurzweil -- History: Primary Batteries / W Taucher-Mautner -- History: Secondary Batteries / P Kurzweil -- History: Fuel Cells / P Kurzweil -- History: Electrochemical Capacitors / P Kurzweil -- Materials: Nanofibers / F Croce -- Materials: Sol-Gel Synthesis / A Vertova -- Materials: Etching / G S Hwang -- Measurement Methods: Electrochemical: Impedance Spectroscopy / D E Vladikova -- Measurement Methods: Electrochemical: Linear Sweep and Cyclic Voltammetry G Bontempelli, R Toniolo -- Measurement Methods: Electrochemical: Potential and Current Steps / R Holze -- ^ Measurement Methods: Electrochemical: Quartz Microbalance / H J Gores |
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Note continued: Measurement Methods: Electronic and Chemical Properties: X-Ray Photoelectron Spectroscopy / R Zanoni -- Measurement Methods: Structural Properties: Atomic Force Microscopy / J Haiber -- Measurement Methods: Structural Properties: X-Ray and Neutron Diffraction / A Bieniok -- Measurement Methods: Structural Properties: Neutron and Synchrotron Imaging, In-Situ for Water Visualization / I Manke -- Measurement Methods: Structural and Chemical Properties: Scanning Electron Microscopy / F Nobili -- Measurement Methods: Structural and Chemical Properties: Transmission Electron Microscopy / F Nobili -- Measurement Methods: Structural Plus Electronic and Chemical Properties: X-Ray Absorption Spectroscopy / S L P Savin -- Measurement Methods: Vibrational Properties: Raman and Infra Red / P Johansson -- Measurement Methods: In-Situ Characterization of Battery Materials / G E Nauer -- Photoelectrochemical Cells: Overview / S Cattarin -- Photoelectrochemical Cells: Dye-Sensitized Cells / K R Millington -- Primary Batteries: Overview / B Scrosati -- Primary Batteries -- Aqueous Systems: Alkaline Manganese-Zinc / T Takamura -- Primary Batteries -- Aqueous Systems: Leclanche and Zinc-Carbon / W Taucher-Mautner -- Primary Batteries -- Aqueous Systems: Zinc-Air / M Hayashi -- Primary Batteries -- Aqueous Systems: Zinc-Mercury / W Taucher-Mautner -- Primary Batteries -- Nonaqueous Systems: Lithium Primary: Overview / K Nishio -- Primary Batteries -- Nonaqueous Systems: Lithium-Iodine-Polyvinylpyridine / C F Holmes -- Primary Batteries -- Nonaqueous Systems: Lithium-Manganese Dioxide / K Nishio -- Primary Batteries -- Nonaqueous Systems: Lithium-Polycarbon Monofluoride / H Touhara -- Primary Batteries -- Nonaqueous Systems: Lithium-Vanadium/Silver Oxides / A C Marschilok -- Primary Batteries -- Nonaqueous Systems: Lithium-Sulfur/Chlorine / A P Johnson |
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Note continued: Primary Batteries -- Nonaqueous Systems: Solid-State: Silver-Iodine / P Reale -- Primary Batteries -- Reserve Systems: Thermally Activated Batteries: Overview / M Oshitani -- Primary Batteries -- Reserve Systems: Thermally Activated Batteries: Calcium / P J Masset -- Primary Batteries -- Reserve Systems: Thermally Activated Batteries: Lithium / P J Masset -- Primary Batteries -- Reserve Systems: Seawater Activated Batteries: Magnesium / M Oshitani -- Recycling: Lead-Acid Batteries: Overview / M Stevenson -- Recycling: Lead-Acid Batteries: Electrochemical / R Clarke -- Recycling: Lithium and Nickel-Metal Hydride Batteries / S E Sloop -- Recycling: Nickel-Metal Hydride Batteries / K Scott -- Recycling: Noble Metal Recycling / D S Cameron -- Safety: Cell Reversal / L Binder -- Safety: High Voltage / C D Parker -- Safety: Materials Toxicity / C J Boreiko -- Safety: Thermal Runaway / Y Guo -- ^ Secondary Batteries: Overview / R J Brodd -- Secondary Batteries: Super-Iron Batteries / S Licht -- Secondary Batteries: Magnesium Batteries (Secondary and Primary) / D Aurbach -- Secondary Batteries -- High Temperature Systems: Sodium-Sulfur / R Holze -- Secondary Batteries -- High Temperature Systems: Sodium-Nickel Chloride J L Sudworth, R C Galloway -- Secondary Batteries -- High Temperature Systems: Safety / A Bito -- Secondary Batteries -- High Temperature Systems: Alkali Metal Thermal to Electric Energy Converter / M A K Lodhi -- Secondary Batteries -- Metal-Air Systems: Overview (Secondary and Primary) / M Hayashi -- Secondary Batteries -- Metal-Air Systems: Bifunctional Oxygen Electrodes / L Joerissen -- Secondary Batteries -- Metal-Air Systems: Iron-Air (Secondary and Primary) / M Egashira -- Secondary Batteries -- Metal-Air Systems: Lithium-Air / L C De Jonghe -- ^ Secondary Batteries -- Metal-Air Systems: Zinc-Air: Electrical Recharge / J Van Wesemael |
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Note continued: Secondary Batteries -- Metal-Air Systems: Zinc-Air: Hydraulic Recharge / X G Zhang -- Secondary Batteries -- Nickel Systems: Electrodes: Nickel / B Hariprakash -- Secondary Batteries -- Nickel Systems: Electrodes: Cadmium / B Hariprakash -- Secondary Batteries -- Nickel Systems: Electrodes: Iron / B Hariprakash -- Secondary Batteries -- Nickel Systems: Alkaline Battery Separators / P Kritzer -- Secondary Batteries -- Nickel Systems: Nickel-Cadmium: Overview / B Hariprakash -- Secondary Batteries -- Nickel Systems: Nickel-Cadmium: Sealed / P Bernard -- Secondary Batteries -- Nickel Systems: Nickel-Hydrogen / P Bernard -- Secondary Batteries -- Nickel Systems: Nickel-Metal Hydride: Overview / S Venugoplan -- Secondary Batteries -- Nickel Systems: Nickel-Metal Hydride: Metal Hydrides / M Latroche -- Secondary Batteries -- Nickel Systems: Nickel-Iron / B Hariprakash -- ^ Secondary Batteries -- Nickel Systems: Nickel-Zinc / E Cairns -- Secondary Batteries -- Nickel Systems: Memory Effect / Y Sato -- Secondary Batteries -- Lead-Acid Systems: Overview / P T Moseley -- Secondary Batteries -- Lead-Acid Systems: Negative Electrode / G Papazov -- Secondary Batteries -- Lead-Acid Systems: Positive Electrode / K R Bullock -- Secondary Batteries -- Lead-Acid Systems: Electrode Design / R Wagner -- Secondary Batteries -- Lead-Acid Systems: Electrolyte / D Pavlov -- Secondary Batteries -- Lead-Acid Systems: Separators / J K Whear -- Secondary Batteries -- Lead-Acid Systems: Phosphoric Acid Influence / K R Bullock -- Secondary Batteries -- Lead-Acid Systems: Carbon Additives / A F Hollenkamp -- Secondary Batteries -- Lead-Acid Systems: Lead Alloys / R D Prengaman -- Secondary Batteries -- Lead-Acid Systems: Grid Production / R D Prengaman -- Secondary Batteries -- Lead-Acid Systems: Curing and Formation / R Wagner -- Secondary Batteries -- Lead-Acid Systems: Flooded Batteries / R Wagner |
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Note continued: Secondary Batteries -- Lead-Acid Systems: Performance / G J May -- Secondary Batteries -- Lead-Acid Systems: Valve-Regulated Batteries: Oxygen Cycle / B Culpin -- Secondary Batteries -- Lead-Acid Systems: Valve-Regulated Batteries: Absorptive Glass Mat / M J Weighall -- Secondary Batteries -- Lead-Acid Systems: Valve-Regulated Batteries: Gel / H Niepraschk -- Secondary Batteries -- Lead-Acid Systems: Catalytic Valves / E Cattaneo -- Secondary Batteries -- Lead-Acid Systems: Flow Batteries / R G A Wills -- Secondary Batteries -- Lead-Acid Systems: Bipolar Batteries / A C Loyns -- Secondary Batteries -- Lead-Acid Systems: Supercap Hybrid (UltraBattery[™]) / J Furukawa -- Secondary Batteries -- Lead-Acid Systems: Charging / S S Misra -- Secondary Batteries -- Lead-Acid Systems: Coup de Fouet / A Delaille -- Secondary Batteries -- Lead-Acid Systems: State-of-Charge/Health / D U Sauer -- Secondary Batteries -- Lead-Acid Systems: Lifetime Determining Processes / D U Sauer -- Secondary Batteries -- Lead-Acid Systems: Modeling / B Y Liaw -- Secondary Batteries -- Lead-Acid Systems: Automotive Batteries: Conventional / E Meissner -- Secondary Batteries -- Lead-Acid Systems: Automotive Batteries: New Developments / E Karden -- Secondary Batteries -- Lead-Acid Systems: Stationary Batteries / G May -- Secondary Batteries -- Lithium Rechargeable Systems: Overview / K Brandt -- Secondary Batteries -- Lithium Rechargeable Systems: Negative Electrodes: Lithium Metal / K Kanamura -- Secondary Batteries -- Lithium Rechargeable Systems: Positive Electrodes: Vanadium Oxides / M Hibino -- Secondary Batteries -- Lithium Rechargeable Systems: Electrolytes: Overview / K Xu -- Secondary Batteries -- Lithium Rechargeable Systems: Electrolytes: Nonaqueous / M Ue -- Secondary Batteries -- Lithium Rechargeable Systems: Electrolytes: Ionic Liquids / W A Henderson |
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Note continued: Secondary Batteries -- Lithium Rechargeable Systems: Electrolytes: Additives / O Chusid -- Secondary Batteries -- Lithium Rechargeable Systems: Electrolytes: Single Lithium Ion Conducting Polymers / D Golodnitsky -- Secondary Batteries -- Lithium Rechargeable Systems: Electrolytes: Solid Sulfide / R Kanno -- Secondary Batteries -- Lithium Rechargeable Systems: Electrolytes: Glass / A Hayashi -- Secondary Batteries -- Lithium Rechargeable Systems: Lithium-Iron Sulfide / A N Jansen -- Secondary Batteries -- Lithium Rechargeable Systems: Lithium-Organic Sulrar / E J Cairns -- Secondary Batteries -- Lithium Rechargeable Systems: Lithium-Sulfur / G Cheruvally -- Secondary Batteries -- Lithium Rechargeable Systems: All-Solid State Battery / W Weppner -- Secondary Batteries -- Lithium Rechargeable Systems: Lithium Polymer Batteries / MJ Smith -- Secondary Batteries -- Lithium Rechargeable Systems: Hazards and Protection Circuits / Y Barsukov -- Secondary Batteries -- Lithium Rechargeable Systems -- Lithium-Ion: Overview / J Yamaki -- Secondary Batteries -- Lithium Rechargeable Systems -- Lithium-Ion: Negative Electrodes: Carbon / T Abe -- Secondary Batteries -- Lithium Rechargeable Systems -- Lithium-Ion: Negative Electrodes: Graphite / M Inaba -- Secondary Batteries -- Lithium Rechargeable Systems -- Lithium-Ion: Negative Electrode: Spinel-Type Titanium Oxides / T Ohzuku -- Secondary Batteries -- Lithium Rechargeable Systems -- Lithium-Ion: Negative Electrode: Titanium-Based Materials / H Noguchi -- Secondary Batteries -- Lithium Rechargeable Systems -- Lithium-Ion: Negative Electrodes: Lithium Alloys / J-L Wang -- Secondary Batteries -- Lithium Rechargeable Systems -- Lithium-Ion: Positive Electrode: High-Voltage Materials / C Stinner -- Secondary Batteries -- Lithium Rechargeable Systems -- Lithium-Ion: Positive Electrode: Layered Metal Oxides / J B Goodenough |
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Note continued: Secondary Batteries -- Lithium Rechargeable Systems -- Lithium-Ion: Positive Electrode: Layered Mixed Metal Oxides / T Ohzuku -- Secondary Batteries -- Lithium Rechargeable Systems -- Lithium-Ion: Positive Electrode: Lithium Cobalt Oxide / M Hayashi -- Secondary Batteries -- Lithium Rechargeable Systems -- Lithium-Ion: Positive Electrode: Lithium Iron Phosphate / C M Julien -- Secondary Batteries -- Lithium Rechargeable Systems -- Lithium-Ion: Positive Electrode: Lithium Nickel Oxide / R Kanno -- Secondary Batteries -- Lithium Rechargeable Systems -- Lithium-Ion: Positive Electrode: Manganese Oxides / H Noguchi -- Secondary Batteries -- Lithium Rechargeable Systems -- Lithium-Ion: Positive Electrode: Manganese Spinel Oxides / M Wohlfahrt-Mehrens -- Secondary Batteries -- Lithium Rechargeable Systems -- Lithium-Ion: Electrolytes: Solid Oxide / K Takada -- ^ Secondary Batteries -- Lithium Rechargeable Systems -- Lithium-Ion: Positive Electrode: Nanostrucrured Transition Metal Oxides / Y Wang -- Secondary Batteries -- Lithium Rechargeable Systems -- Lithium-Ion: Separators / H Tanji -- Secondary Batteries -- Lithium Rechargeable Systems -- Lithium-Ion: Lithium Vanadium Oxide/Niobium Oxide Batteries / H Yoshizawa -- Secondary Batteries -- Lithium Rechargeable Systems -- Lithium-Ion: Lithium-Ion Polymer Batteries / N Terada -- Secondary Batteries -- Lithium Rechargeable Systems -- Lithium-Ion: Inorganic Electrolyte Batteries / M Borck -- Secondary Batteries -- Lithium Rechargeable Systems -- Lithium-Ion: Aging Mechanisms / M Wohlfahrt-Mehrens -- Secondary Batteries -- Lithium Rechargeable Systems -- Lithium-Ion: Overcharge Protection Shuttles / T J Richardson -- Secondary Batteries -- Lithium Rechargeable Systems -- Lithium-Ion: Thermal Runaway / S Tobishima -- ^ Secondary Batteries -- Lithium Rechargeable Systems -- Lithium-Ion: Lifetime Prediction / R E White -- Secondary Batteries -- Flow Systems: Overview / F C Walsh |
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Note continued: Secondary Batteries -- Flow Systems: Vanadium Redox-Flow Batteries / M Skyllas-Kazacos -- Secondary Batteries -- Zinc Systems: Zinc Electrodes: Overview / X G Zhang -- Secondary Batteries -- Zinc Systems: Zinc Electrodes: Solar Thermal Production / S Steinfeld -- Secondary Batteries -- Zinc Systems: Zinc-Bromine / F C Walsh -- Secondary Batteries -- Zinc Systems: Zinc-Manganese / J Daniel-Lvad -- Secondary Batteries -- Zinc Systems: Zinc-Silver / A P J R Serenyi. |
| Subject |
Direct energy conversion -- Encyclopedias.
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Electrochemistry, Industrial -- Encyclopedias.
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Énergie -- Conversion directe -- Encyclopédies.
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Électrochimie industrielle -- Encyclopédies.
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TECHNOLOGY & ENGINEERING -- Electrical.
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Direct energy conversion
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Electrochemistry, Industrial
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| Genre/Form |
Encyclopedia |
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encyclopedias.
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Encyclopedias
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Encyclopedias.
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Encyclopédies.
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| Added Author |
Garche, Jürgen.
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Dyer, Chris K.
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| Added Title |
Electrochemical power sources |
| Other Form: |
Print version: Encyclopedia of electrochemical power sources. Amsterdam ; Boston : Academic Press : Imprint of Elsevier, ©2009 9780444520937 (DLC) 2009937314 (OCoLC)299711060 |
| ISBN |
9780444527455 |
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0444527451 |
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9780444520937 |
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0444520937 |
| Standard No. |
AU@ 000045814581 |
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DEBBG BV036799929 |
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DEBSZ 334983797 |
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DEBSZ 372595898 |
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DEBSZ 431142289 |
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HEBIS 220311218 |
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NLGGC 343496445 |
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DEHBS BV036799929 |
