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|a (OCoLC)656362152
|z (OCoLC)505873905
|z (OCoLC)771922839
|z (OCoLC)794595905
|z (OCoLC)797858582
|
| 050 |
|
4 |
|a TK2896
|b .E53 2009
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| 072 |
|
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|a TEC
|x 007000
|2 bisacsh
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| 082 |
0 |
4 |
|a 621.3124203
|2 22
|
| 245 |
0 |
0 |
|a Encyclopedia of electrochemical power sources /
|c editor-in-chief, J�urgen Garche ; section editors, Chris K. Dyer [and others].
|
| 246 |
3 |
0 |
|a Electrochemical power sources
|
| 260 |
|
|
|a Amsterdam ;
|a Boston :
|b Academic Press :
|b Imprint of Elsevier,
|c �2009.
|
| 300 |
|
|
|a 1 online resource (5 volumes) :
|b illustrations (some color)
|
| 336 |
|
|
|a text
|b txt
|2 rdacontent
|
| 337 |
|
|
|a computer
|b c
|2 rdamedia
|
| 338 |
|
|
|a online resource
|b cr
|2 rdacarrier
|
| 504 |
|
|
|a Includes bibliographical references and index.
|
| 588 |
0 |
|
|a Print version record.
|
| 505 |
0 |
0 |
|a Machine generated contents note:
|t Applications -- Portable: Micro Hybrid Power System: Fuel Cells/Capacitors /
|r T Osaka --
|t Applications -- Portable: Military: Batteries and Fuel Cells /
|r M Krausa --
|t Applications -- Portable: Notebooks: Batteries /
|r R J Brodd --
|t Applications -- Portable: Portable Devices: Batteries /
|r G Pistoia --
|t Applications -- Portable: Portable Devices: Fuel Cells /
|r J H Jang --
|t Applications -- Portable: Power Tools: Batteries /
|r W Weydanz --
|t Applications -- Stationary: Energy Storage Systems: Batteries /
|r C D Parker --
|t Applications -- Stationary: Remote Area Power Supply: Batteries and Fuel Cells /
|r E Lemaire-Potteau --
|t Applications -- Stationary: Fuel Cells /
|r A J Appleby --
|t Applications -- Stationary: Residential Energy Supply: Fuel Cells /
|r L Jorissen --
|t Applications -- Stationary: Fuel Cell/Gas Turbine Hybrid /
|r J Brouwer --
|t Applications -- Stationary: Uninterruptible and Back-up Power: Fuel Cells /
|r D Lutterbeck -- ^
|
| 505 |
0 |
0 |
|a Note continued:
|t Applications -- Transportation: Rail Vehicles: Fuel Cells /
|r A R Miller --
|t Applications -- Transportation: Satellites: Batteries /
|r R C Pandipati --
|t Applications -- Transportation: Ships: Fuel Cells /
|r W Winkler --
|t Applications -- Transportation: Solar Cars: Batteries /
|r D A J Rand --
|t Applications -- Transportation: Submersibles: Batteries /
|r � Hasvold --
|t Batteries: Nomenclature /
|r P Kurzweil --
|t Batteries: Capacity /
|r H Wenzl --
|t Batteries: Energy /
|r H Wenzl --
|t Batteries: Self-Discharge /
|r H Wenzl --
|t Batteries: Charging Methods /
|r S Genies --
|t Batteries: Fast Charging /
|r V Svoboda --
|t Batteries: Charge-Discharge Curves /
|r D U Sauer --
|t Batteries: Partial-State-of-Charge /
|r E Dickinson --
|t Batteries: Adaptive State-of-Charge Determination /
|r P H L Notten --
|t Batteries: Dynamics /
|r A Jossen --
|t Batteries: Alternating Currents /
|r H A Catherino --
|t Batteries: Parallel and Series Connections /
|r J McDowall --
|t Batteries: Modeling /
|r Chee Burm Shin --
|t Batteries: Lifetime Prediction /
|r H Wenzl --
|t Batteries: Codes and Standards /
|r C Parker --
|t Batteries and Fuel Cells: Efficiency /
|r H Wenzl --
|t Batteries and Fuel Cells: Lifetime /
|r H Wenzl --
|t Batteries and Fuel Cells: Power /
|r H Wenzl --
|t Batteries and Fuel Cells: Techno-Economic Assessments /
|r S A Schmid --
|t Capacitors: Overview /
|r J R Miller --
|t Capacitors: Electrostatic Solid-State Capacitors /
|r P Kurzweil --
|t Capacitors: Electrochemical Double-Layer Capacitors /
|r P Kurzweil --
|t Capacitors: Electrochemical Double-Layer Capacitors: Carbon Materials /
|r P Kurzweil --
|t Capacitors: Electrochemical Capacitors: Ionic Liquid Electrolytes /
|r F Soavi --
|t Capacitors: Electrochemical Hybrid Capacitors /
|r P Kurzweil --
|t Capacitors: Electrochemical Metal Oxides Capacitors /
|r P Kurzweil --
|t Capacitors: Electrochemical Polymer Capacitors /
|r P Kurzweil --
|t Capacitors: Application /
|r A Burke
|
| 505 |
0 |
0 |
|a Note continued:
|t Chemistry, Electrochemistry, and Electrochemical Applications: Aluminum /
|r N J Bjerruum --
|t Chemistry, Electrochemistry, and Electrochemical Applications: Carbon /
|r T Takamura --
|t Chemistry, Electrochemistry, and Electrochemical Applications: Iron /
|r B Hariprakash --
|t Chemistry, Electrochemistry, and Electrochemical Applications: Hydrogen /
|r O A Petrii --
|t Chemistry, Electrochemistry, and Electrochemical Applications: Lead /
|r Z Galus --
|t Chemistry, Electrochemistry, and Electrochemical Applications: Lithium /
|r R J Brodd --
|t Chemistry, Electrochemistry, and Electrochemical Applications: Manganese /
|r W Taucher-Mautner --
|t Chemistry, Electrochemistry, and Electrochemical Applications: Nickel /
|r B Riegel --
|t Chemistry, Electrochemistry, and Electrochemical Applications: Oxygen /
|r A J Appleby --
|t Chemistry, Electrochemistry, and Electrochemical Applications: Platinum Group Elements /
|r A J Appleby -- ^
|t Chemistry, Electrochemistry, and Electrochemical Applications: Silver /
|r D S Cameron --
|t Chemistry, Electrochemistry, and Electrochemical Applications: Zinc /
|r J-Y Huot --
|t Electrochemical Theory: Thermodynamics /
|r S Panero --
|t Electrochemical Theory: Double Layer /
|r W Schmickler --
|t Electrochemical Theory: Kinetics /
|r S Panero --
|t Electrochemical Theory: Electrokinetics /
|r S Trasatti --
|t Electrochemical Theory: Electrocrystalization /
|r G Staikov --
|t Electrochemical Theory: Hydrogen Evolution /
|r S Trasatti --
|t Electrochemical Theory: Oxygen Evolution /
|r S Trasatti --
|t Electrochemical Theory: Corrosion /
|r S Virtanen --
|t Electrochemical Theory: Non Faraday Electrochemical Modification of Catalysts Activity /
|r S Brosda --
|t Electrodes: 3-D Electrodes Batteries /
|r B Dunn --
|t Electrodes: Nanoelectrodes /
|r B Scrosati --
|t Electrodes: Ion-Selective Electrodes /
|r G Clarke --
|t Electrodes: Porous Electrodes /
|r R E White -- ^
|t Electrodes: Semiconductor Electrodes /
|r F Decker --
|t Electrolytes: Overview /
|r M Salomon
|
| 505 |
0 |
0 |
|a Note continued:
|t Electrolytes: Gel /
|r S Thomas --
|t Electrolytes: Ionic Liquids /
|r H Ohno --
|t Electrolytes: Non-Aqueous /
|r M Salomon --
|t Electrolytes: Polymer /
|r G Alberti --
|t Electrolytes: Solid: Mixed Ionic-Electronic Conductors /
|r Elvers-Tiffee --
|t Electrolytes: Solid: Oxygen Ions /
|r Elvers-Tiffee --
|t Electrolytes: Solid: Protons /
|r J Tolchard --
|t Electrolytes: Solid: Sodium Ions /
|r P T Moseley --
|t Energy: Energy Storage /
|r H Frey --
|t Energy: Hydrogen Economy /
|r M Conte --
|t Energy: Cold Fusion -- Precursor to Low-Energy Nuclear Reactions /
|r S B Krivit --
|t Energy: Cold Fusion: History /
|r S B Krivit --
|t Fuel Cells -- Overview: Introduction /
|r A J Appleby --
|t Fuel Cells -- Overview: Lifetime Prediction /
|r M Marrony --
|t Fuel Cells -- Overview: Modeling /
|r P Costamagna --
|t Fuel Cells -- Alkaline Fuel Cells: Overview /
|r G Mulder --
|t Fuel Cells -- Alkaline Fuel Cells: Anion-Exchange Membranes /
|r F Zhao --
|t Fuel Cells -- Alkaline Fuel Cells: Cells and Stacks /
|r K Kordesch --
|t Fuel Cells -- Alkaline Fuel Cells: Overview Performance and Operational Conditions /
|r E Gulzow --
|t Fuel Cells -- Direct Alcohol Fuel Cells: Overview /
|r J B Xu --
|t Fuel Cells -- Direct Alcohol Fuel Cells: Direct Methanol: Overview /
|r V Gogel --
|t Fuel Cells -- Direct Alcohol Fuel Cells: Direct Methanol Fuel Cell: Overview Performance and Operational Conditions /
|r C Xu --
|t Fuel Cells -- Direct Alcohol Fuel Cells: Direct Ethanol Fuel Cells /
|r G Sun --
|t Fuel Cells -- Direct Alcohol Fuel Cells: Direct Ethanol Fuel Cells: Catalysts /
|r E Antolini --
|t Fuel Cells -- Direct Alcohol Fuel Cells: Direct Ethylene Glycol Fuel Cells /
|r K Miyazaki --
|t Fuel Cells -- Direct Alcohol Fuel Cells: New Materials /
|r D Gervasio --
|t Fuel Cells -- Direct Alcohol Fuel Cells: Experimental Systems /
|r R Chen --
|t Fuel Cells -- Direct Alcohol Fuel Cells: Modeling /
|r W W Yang --
|t Fuel Cells -- Molten Carbonate Fuel Cells: Overview /
|r A L Dicks
|
| 505 |
0 |
0 |
|a Note continued:
|t Fuel Cells -- Molten Carbonate Fuel Cells: Anodes /
|r M Farooque --
|t Fuel Cells -- Molten Carbonate Fuel Cells: Cathodes /
|r A L Dicks --
|t Fuel Cells -- Molten Carbonate Fuel Cells: Cells and Stacks /
|r A L Dicks --
|t Fuel Cells -- Molten Carbonate Fuel Cells: Systems /
|r G Huppmann --
|t Fuel Cells -- Molten Carbonate Fuel Cells: Materials and Life Considerations /
|r M Farooque --
|t Fuel Cells -- Molten Carbonate Fuel Cells: Full-scale Prototypes /
|r H Maru --
|t Fuel Cells -- Molten Carbonate Fuel Cells: Modeling /
|r M Farooque --
|t Fuel Cells -- Phosphoric Acid Fuel Cells: Overview /
|r A J Appleby --
|t Fuel Cells -- Phosphoric Acid Fuel Cells: Anodes /
|r P Kurzweil --
|t Fuel Cells -- Phosphoric Acid Fuel Cells: Cathodes /
|r T Kuwabara --
|t Fuel Cells -- Phosphoric Acid Fuel Cells: Electrolytes /
|r T Murahashi --
|t Fuel Cells -- Phosphoric Acid Fuel Cells: Cells and Stacks /
|r Y Oka --
|t Fuel Cells -- Phosphoric Acid Fuel Cells: Systems /
|r M Okumura --
|t Fuel Cells -- Phosphoric Acid Fuel Cells: Performance and Operational Conditions /
|r Y Oka --
|t Fuel Cells -- Phosphoric Acid Fuel Cells: Life-Limiting Considerations /
|r K Mitsuda --
|t Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Anodes with Reformate /
|r D Thompsett --
|t Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Cathodes /
|r M E P Markiewicz --
|t Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Catalysts: Life-Limiting Considerations /
|r H A Gasteiger --
|t Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Catalysts: Non Platinum /
|r J-P Dodelet --
|t Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Membranes /
|r G Alberti --
|t Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Membranes: Ambient Temperature /
|r J Roziere --
|t Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Membranes: Advanced Fluorinated /
|r V Arcella --
|t Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Membranes: Non-Fluorinated /
|r J-C Lepretre
|
| 505 |
0 |
0 |
|a Note continued:
|t Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Membranes: Composites /
|r V Ramani --
|t Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Membranes: Elevated Temperature /
|r E V Niangar --
|t Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Membranes: Polybenzimidazole /
|r A Magistris --
|t Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Membranes: Design and Characterization /
|r A M Brenner --
|t Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Membrane: Life-Limiting Considerations /
|r T A Zawodzinski --
|t Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Membranes: Modeling /
|r L Pisani --
|t Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Membranes: Spatially Resolved Measurements /
|r R Hiesgen --
|t Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Membrane-Electrode Assemblies /
|r R P Ramasamy --
|t Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Gas Diffusion Layers /
|r D Gervasio -- ^
|t Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Bipolar Plates /
|r C Jansen --
|t Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Cells /
|r J W Weidner --
|t Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Water Management /
|r M M Mench --
|t Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Life-Limiting Considerations /
|r H Wang --
|t Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Modeling /
|r N Djilali --
|t Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Stacks /
|r J St-Pierre --
|t Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Systems /
|r Z Qi --
|t Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Overview Performance and Operational Conditions /
|r J St-Pierre --
|t Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Dynamic Operational Conditions /
|r K A Friedrich --
|t Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Freeze Operational Conditions /
|r R Alink --
|t Fuel Cells -- Proton-Exchange Membrane Fuel Cells: Impurities in Fuels and Air /
|r J Zhang -- ^
|t Fuel Cells -- Proton-Exchange Membrane Fuel Cells: High Temperature PEMFCs /
|r W Lehnert
|
| 505 |
0 |
0 |
|a Note continued:
|t Fuel Cells -- Solid Oxide Fuel Cells: Overview /
|r S C Singhal --
|t Fuel Cells -- Solid Oxide Fuel Cells: Anodes /
|r N M Sammes --
|t Fuel Cells -- Solid Oxide Fuel Cells: Cathodes /
|r B R Roy --
|t Fuel Cells -- Solid Oxide Fuel Cells: Membranes /
|r M Kusnezoff --
|t Fuel Cells -- Solid Oxide Fuel Cells: Cells and Stacks /
|r H Zhu --
|t Fuel Cells -- Solid Oxide Fuel Cells: Cell Interconnection /
|r S C Singhal --
|t Fuel Cells -- Solid Oxide Fuel Cells: Gas Distribution /
|r M Spiller --
|t Fuel Cells -- Solid Oxide Fuel Cells: Internal and External Reformation /
|r R Peters --
|t Fuel Cells -- Solid Oxide Fuel Cells: Systems /
|r E Riensche --
|t Fuel Cells -- Solid Oxide Fuel Cells: Life-Limiting Considerations /
|r A Weber --
|t Fuel Cells -- Solid Oxide Fuel Cells: Modeling /
|r D Froning --
|t Fuel Cells -- Solid Oxide Fuel Cells: Micro Cells /
|r L J Gauckler --
|t Fuel Cells -- Exploratory Fuel Cells: Direct Carbon Fuel Cells /
|r G G Botte -- ^
|t Fuel Cells -- Exploratory Fuel Cells: Formic Acid Fuel Cells /
|r S L Blair --
|t Fuel Cells -- Exploratory Fuel Cells: Hydrogen-Bromine Fuel Cells /
|r M Goor --
|t Fuel Cells -- Exploratory Fuel Cells: Sodium Borohydride Fuel Cells /
|r F C Walsh --
|t Fuel Cells -- Exploratory Fuel Cells: Microbial Fuel Cells /
|r U Schroder --
|t Fuel Cells -- Exploratory Fuel Cells: Micro-Fuel Cells /
|r Y Sahai --
|t Fuel Cells -- Exploratory Fuel Cells: Regenerative Fuel Cells /
|r F Barbir --
|t Fuels -- Hydrogen Production: Autothermal Reforming /
|r N Laosiripojana --
|t Fuels -- Hydrogen Production: Absorption Enhanced Reforming /
|r M Specht --
|t Fuels -- Hydrogen Production: Biomass: Thermochemical Processes /
|r A Kruse --
|t Fuels -- Hydrogen Production: Biomass: Fermentation /
|r W Schnitzhofer --
|t Fuels -- Hydrogen Production: Coal Gasification /
|r R M Dell --
|t Fuels -- Hydrogen Production: Natural Gas: Conventional Steam-Reforming /
|r D L Trimm -- ^
|t Fuels -- Hydrogen Production: Natural Gas: Solar-Thermal Steam Reforming /
|r C Sattler
|
| 505 |
0 |
0 |
|a Note continued:
|t Fuels -- Hydrogen Production: Gas Cleaning: Barrier Filters /
|r J N Carras --
|t Fuels -- Hydrogen Production: Gas Cleaning: Membrane Separators /
|r M D Dolan --
|t Fuels -- Hydrogen Production: Gas Cleaning: Pressure Swing Adsorption /
|r S D Sharma --
|t Fuels -- Hydrogen Production: Photothermally and Thermally-Assisted Photovoltaic /
|r S Licht --
|t Fuels -- Hydrogen Production: Photoelectrolysis /
|r C Fell --
|t Fuels -- Hydrogen Production: Thermochemical Cycles /
|r M Roeb --
|t Fuels -- Hydrogen Production: Water Electrolysis /
|r T Smolinka --
|t Fuels -- Hydrogen Storage: Compressed /
|r N Sirosh --
|t Fuels -- Hydrogen Storage: Liquid /
|r L Bonadio --
|t Fuels -- Hydrogen Storage: Hydrides /
|r A Zuttel --
|t Fuels -- Hydrogen Storage: High Temperature Hydrides /
|r T Klassen --
|t Fuels -- Hydrogen Storage: Complex Hydrides /
|r H Fujii --
|t Fuels -- Hydrogen Storage: Carbon Materials /
|r M Hirscher --
|t Fuels -- Hydrogen Storage: Glass Microspheres /
|r M M Hall --
|t Fuels -- Hydrogen Storage: Metal-Organic Frameworks /
|r M Hirscher --
|t Fuels -- Hydrogen Storage: Zeolites J Weitkamp --
|t Fuels -- Hydrogen Storage: Chemical Carriers /
|r T A Semelsberger --
|t Fuels -- Safety: Hydrogen: Overview /
|r U Schmidtchen --
|t Fuels -- Safety: Hydrogen: Transportation /
|r U Schmidtchen --
|t History: Electrochemistry /
|r P Kurzweil --
|t History: Primary Batteries /
|r W Taucher-Mautner --
|t History: Secondary Batteries /
|r P Kurzweil --
|t History: Fuel Cells /
|r P Kurzweil --
|t History: Electrochemical Capacitors /
|r P Kurzweil --
|t Materials: Nanofibers /
|r F Croce --
|t Materials: Sol-Gel Synthesis /
|r A Vertova --
|t Materials: Etching /
|r G S Hwang --
|t Measurement Methods: Electrochemical: Impedance Spectroscopy /
|r D E Vladikova --
|t Measurement Methods: Electrochemical: Linear Sweep and Cyclic Voltammetry G Bontempelli, R Toniolo --
|t Measurement Methods: Electrochemical: Potential and Current Steps /
|r R Holze -- ^
|t Measurement Methods: Electrochemical: Quartz Microbalance /
|r H J Gores
|
| 505 |
0 |
0 |
|a Note continued:
|t Measurement Methods: Electronic and Chemical Properties: X-Ray Photoelectron Spectroscopy /
|r R Zanoni --
|t Measurement Methods: Structural Properties: Atomic Force Microscopy /
|r J Haiber --
|t Measurement Methods: Structural Properties: X-Ray and Neutron Diffraction /
|r A Bieniok --
|t Measurement Methods: Structural Properties: Neutron and Synchrotron Imaging, In-Situ for Water Visualization /
|r I Manke --
|t Measurement Methods: Structural and Chemical Properties: Scanning Electron Microscopy /
|r F Nobili --
|t Measurement Methods: Structural and Chemical Properties: Transmission Electron Microscopy /
|r F Nobili --
|t Measurement Methods: Structural Plus Electronic and Chemical Properties: X-Ray Absorption Spectroscopy /
|r S L P Savin --
|t Measurement Methods: Vibrational Properties: Raman and Infra Red /
|r P Johansson --
|t Measurement Methods: In-Situ Characterization of Battery Materials /
|r G E Nauer --
|t Photoelectrochemical Cells: Overview /
|r S Cattarin --
|t Photoelectrochemical Cells: Dye-Sensitized Cells /
|r K R Millington --
|t Primary Batteries: Overview /
|r B Scrosati --
|t Primary Batteries -- Aqueous Systems: Alkaline Manganese-Zinc /
|r T Takamura --
|t Primary Batteries -- Aqueous Systems: Leclanche and Zinc-Carbon /
|r W Taucher-Mautner --
|t Primary Batteries -- Aqueous Systems: Zinc-Air /
|r M Hayashi --
|t Primary Batteries -- Aqueous Systems: Zinc-Mercury /
|r W Taucher-Mautner --
|t Primary Batteries -- Nonaqueous Systems: Lithium Primary: Overview /
|r K Nishio --
|t Primary Batteries -- Nonaqueous Systems: Lithium-Iodine-Polyvinylpyridine /
|r C F Holmes --
|t Primary Batteries -- Nonaqueous Systems: Lithium-Manganese Dioxide /
|r K Nishio --
|t Primary Batteries -- Nonaqueous Systems: Lithium-Polycarbon Monofluoride /
|r H Touhara --
|t Primary Batteries -- Nonaqueous Systems: Lithium-Vanadium/Silver Oxides /
|r A C Marschilok --
|t Primary Batteries -- Nonaqueous Systems: Lithium-Sulfur/Chlorine /
|r A P Johnson
|
| 505 |
0 |
0 |
|a Note continued:
|t Primary Batteries -- Nonaqueous Systems: Solid-State: Silver-Iodine /
|r P Reale --
|t Primary Batteries -- Reserve Systems: Thermally Activated Batteries: Overview /
|r M Oshitani --
|t Primary Batteries -- Reserve Systems: Thermally Activated Batteries: Calcium /
|r P J Masset --
|t Primary Batteries -- Reserve Systems: Thermally Activated Batteries: Lithium /
|r P J Masset --
|t Primary Batteries -- Reserve Systems: Seawater Activated Batteries: Magnesium /
|r M Oshitani --
|t Recycling: Lead-Acid Batteries: Overview /
|r M Stevenson --
|t Recycling: Lead-Acid Batteries: Electrochemical /
|r R Clarke --
|t Recycling: Lithium and Nickel-Metal Hydride Batteries /
|r S E Sloop --
|t Recycling: Nickel-Metal Hydride Batteries /
|r K Scott --
|t Recycling: Noble Metal Recycling /
|r D S Cameron --
|t Safety: Cell Reversal /
|r L Binder --
|t Safety: High Voltage /
|r C D Parker --
|t Safety: Materials Toxicity /
|r C J Boreiko --
|t Safety: Thermal Runaway /
|r Y Guo -- ^
|t Secondary Batteries: Overview /
|r R J Brodd --
|t Secondary Batteries: Super-Iron Batteries /
|r S Licht --
|t Secondary Batteries: Magnesium Batteries (Secondary and Primary) /
|r D Aurbach --
|t Secondary Batteries -- High Temperature Systems: Sodium-Sulfur /
|r R Holze --
|t Secondary Batteries -- High Temperature Systems: Sodium-Nickel Chloride J L Sudworth, R C Galloway --
|t Secondary Batteries -- High Temperature Systems: Safety /
|r A Bito --
|t Secondary Batteries -- High Temperature Systems: Alkali Metal Thermal to Electric Energy Converter /
|r M A K Lodhi --
|t Secondary Batteries -- Metal-Air Systems: Overview (Secondary and Primary) /
|r M Hayashi --
|t Secondary Batteries -- Metal-Air Systems: Bifunctional Oxygen Electrodes /
|r L Joerissen --
|t Secondary Batteries -- Metal-Air Systems: Iron-Air (Secondary and Primary) /
|r M Egashira --
|t Secondary Batteries -- Metal-Air Systems: Lithium-Air /
|r L C De Jonghe -- ^
|t Secondary Batteries -- Metal-Air Systems: Zinc-Air: Electrical Recharge /
|r J Van Wesemael
|
| 505 |
0 |
0 |
|a Note continued:
|t Secondary Batteries -- Metal-Air Systems: Zinc-Air: Hydraulic Recharge /
|r X G Zhang --
|t Secondary Batteries -- Nickel Systems: Electrodes: Nickel /
|r B Hariprakash --
|t Secondary Batteries -- Nickel Systems: Electrodes: Cadmium /
|r B Hariprakash --
|t Secondary Batteries -- Nickel Systems: Electrodes: Iron /
|r B Hariprakash --
|t Secondary Batteries -- Nickel Systems: Alkaline Battery Separators /
|r P Kritzer --
|t Secondary Batteries -- Nickel Systems: Nickel-Cadmium: Overview /
|r B Hariprakash --
|t Secondary Batteries -- Nickel Systems: Nickel-Cadmium: Sealed /
|r P Bernard --
|t Secondary Batteries -- Nickel Systems: Nickel-Hydrogen /
|r P Bernard --
|t Secondary Batteries -- Nickel Systems: Nickel-Metal Hydride: Overview /
|r S Venugoplan --
|t Secondary Batteries -- Nickel Systems: Nickel-Metal Hydride: Metal Hydrides /
|r M Latroche --
|t Secondary Batteries -- Nickel Systems: Nickel-Iron /
|r B Hariprakash -- ^
|t Secondary Batteries -- Nickel Systems: Nickel-Zinc /
|r E Cairns --
|t Secondary Batteries -- Nickel Systems: Memory Effect /
|r Y Sato --
|t Secondary Batteries -- Lead-Acid Systems: Overview /
|r P T Moseley --
|t Secondary Batteries -- Lead-Acid Systems: Negative Electrode /
|r G Papazov --
|t Secondary Batteries -- Lead-Acid Systems: Positive Electrode /
|r K R Bullock --
|t Secondary Batteries -- Lead-Acid Systems: Electrode Design /
|r R Wagner --
|t Secondary Batteries -- Lead-Acid Systems: Electrolyte /
|r D Pavlov --
|t Secondary Batteries -- Lead-Acid Systems: Separators /
|r J K Whear --
|t Secondary Batteries -- Lead-Acid Systems: Phosphoric Acid Influence /
|r K R Bullock --
|t Secondary Batteries -- Lead-Acid Systems: Carbon Additives /
|r A F Hollenkamp --
|t Secondary Batteries -- Lead-Acid Systems: Lead Alloys /
|r R D Prengaman --
|t Secondary Batteries -- Lead-Acid Systems: Grid Production /
|r R D Prengaman --
|t Secondary Batteries -- Lead-Acid Systems: Curing and Formation /
|r R Wagner --
|t Secondary Batteries -- Lead-Acid Systems: Flooded Batteries /
|r R Wagner
|
| 505 |
0 |
0 |
|a Note continued:
|t Secondary Batteries -- Lead-Acid Systems: Performance /
|r G J May --
|t Secondary Batteries -- Lead-Acid Systems: Valve-Regulated Batteries: Oxygen Cycle /
|r B Culpin --
|t Secondary Batteries -- Lead-Acid Systems: Valve-Regulated Batteries: Absorptive Glass Mat /
|r M J Weighall --
|t Secondary Batteries -- Lead-Acid Systems: Valve-Regulated Batteries: Gel /
|r H Niepraschk --
|t Secondary Batteries -- Lead-Acid Systems: Catalytic Valves /
|r E Cattaneo --
|t Secondary Batteries -- Lead-Acid Systems: Flow Batteries /
|r R G A Wills --
|t Secondary Batteries -- Lead-Acid Systems: Bipolar Batteries /
|r A C Loyns --
|t Secondary Batteries -- Lead-Acid Systems: Supercap Hybrid (UltraBattery["]) /
|r J Furukawa --
|t Secondary Batteries -- Lead-Acid Systems: Charging /
|r S S Misra --
|t Secondary Batteries -- Lead-Acid Systems: Coup de Fouet /
|r A Delaille --
|t Secondary Batteries -- Lead-Acid Systems: State-of-Charge/Health /
|r D U Sauer --
|t Secondary Batteries -- Lead-Acid Systems: Lifetime Determining Processes /
|r D U Sauer --
|t Secondary Batteries -- Lead-Acid Systems: Modeling /
|r B Y Liaw --
|t Secondary Batteries -- Lead-Acid Systems: Automotive Batteries: Conventional /
|r E Meissner --
|t Secondary Batteries -- Lead-Acid Systems: Automotive Batteries: New Developments /
|r E Karden --
|t Secondary Batteries -- Lead-Acid Systems: Stationary Batteries /
|r G May --
|t Secondary Batteries -- Lithium Rechargeable Systems: Overview /
|r K Brandt --
|t Secondary Batteries -- Lithium Rechargeable Systems: Negative Electrodes: Lithium Metal /
|r K Kanamura --
|t Secondary Batteries -- Lithium Rechargeable Systems: Positive Electrodes: Vanadium Oxides /
|r M Hibino --
|t Secondary Batteries -- Lithium Rechargeable Systems: Electrolytes: Overview /
|r K Xu --
|t Secondary Batteries -- Lithium Rechargeable Systems: Electrolytes: Nonaqueous /
|r M Ue --
|t Secondary Batteries -- Lithium Rechargeable Systems: Electrolytes: Ionic Liquids /
|r W A Henderson
|
| 505 |
0 |
0 |
|a Note continued:
|t Secondary Batteries -- Lithium Rechargeable Systems: Electrolytes: Additives /
|r O Chusid --
|t Secondary Batteries -- Lithium Rechargeable Systems: Electrolytes: Single Lithium Ion Conducting Polymers /
|r D Golodnitsky --
|t Secondary Batteries -- Lithium Rechargeable Systems: Electrolytes: Solid Sulfide /
|r R Kanno --
|t Secondary Batteries -- Lithium Rechargeable Systems: Electrolytes: Glass /
|r A Hayashi --
|t Secondary Batteries -- Lithium Rechargeable Systems: Lithium-Iron Sulfide /
|r A N Jansen --
|t Secondary Batteries -- Lithium Rechargeable Systems: Lithium-Organic Sulrar /
|r E J Cairns --
|t Secondary Batteries -- Lithium Rechargeable Systems: Lithium-Sulfur /
|r G Cheruvally --
|t Secondary Batteries -- Lithium Rechargeable Systems: All-Solid State Battery /
|r W Weppner --
|t Secondary Batteries -- Lithium Rechargeable Systems: Lithium Polymer Batteries /
|r MJ Smith --
|t Secondary Batteries -- Lithium Rechargeable Systems: Hazards and Protection Circuits /
|r Y Barsukov --
|t Secondary Batteries -- Lithium Rechargeable Systems -- Lithium-Ion: Overview /
|r J Yamaki --
|t Secondary Batteries -- Lithium Rechargeable Systems -- Lithium-Ion: Negative Electrodes: Carbon /
|r T Abe --
|t Secondary Batteries -- Lithium Rechargeable Systems -- Lithium-Ion: Negative Electrodes: Graphite /
|r M Inaba --
|t Secondary Batteries -- Lithium Rechargeable Systems -- Lithium-Ion: Negative Electrode: Spinel-Type Titanium Oxides /
|r T Ohzuku --
|t Secondary Batteries -- Lithium Rechargeable Systems -- Lithium-Ion: Negative Electrode: Titanium-Based Materials /
|r H Noguchi --
|t Secondary Batteries -- Lithium Rechargeable Systems -- Lithium-Ion: Negative Electrodes: Lithium Alloys /
|r J-L Wang --
|t Secondary Batteries -- Lithium Rechargeable Systems -- Lithium-Ion: Positive Electrode: High-Voltage Materials /
|r C Stinner --
|t Secondary Batteries -- Lithium Rechargeable Systems -- Lithium-Ion: Positive Electrode: Layered Metal Oxides /
|r J B Goodenough
|
| 505 |
0 |
0 |
|a Note continued:
|t Secondary Batteries -- Lithium Rechargeable Systems -- Lithium-Ion: Positive Electrode: Layered Mixed Metal Oxides /
|r T Ohzuku --
|t Secondary Batteries -- Lithium Rechargeable Systems -- Lithium-Ion: Positive Electrode: Lithium Cobalt Oxide /
|r M Hayashi --
|t Secondary Batteries -- Lithium Rechargeable Systems -- Lithium-Ion: Positive Electrode: Lithium Iron Phosphate /
|r C M Julien --
|t Secondary Batteries -- Lithium Rechargeable Systems -- Lithium-Ion: Positive Electrode: Lithium Nickel Oxide /
|r R Kanno --
|t Secondary Batteries -- Lithium Rechargeable Systems -- Lithium-Ion: Positive Electrode: Manganese Oxides /
|r H Noguchi --
|t Secondary Batteries -- Lithium Rechargeable Systems -- Lithium-Ion: Positive Electrode: Manganese Spinel Oxides /
|r M Wohlfahrt-Mehrens --
|t Secondary Batteries -- Lithium Rechargeable Systems -- Lithium-Ion: Electrolytes: Solid Oxide /
|r K Takada -- ^
|t Secondary Batteries -- Lithium Rechargeable Systems -- Lithium-Ion: Positive Electrode: Nanostrucrured Transition Metal Oxides /
|r Y Wang --
|t Secondary Batteries -- Lithium Rechargeable Systems -- Lithium-Ion: Separators /
|r H Tanji --
|t Secondary Batteries -- Lithium Rechargeable Systems -- Lithium-Ion: Lithium Vanadium Oxide/Niobium Oxide Batteries /
|r H Yoshizawa --
|t Secondary Batteries -- Lithium Rechargeable Systems -- Lithium-Ion: Lithium-Ion Polymer Batteries /
|r N Terada --
|t Secondary Batteries -- Lithium Rechargeable Systems -- Lithium-Ion: Inorganic Electrolyte Batteries /
|r M Borck --
|t Secondary Batteries -- Lithium Rechargeable Systems -- Lithium-Ion: Aging Mechanisms /
|r M Wohlfahrt-Mehrens --
|t Secondary Batteries -- Lithium Rechargeable Systems -- Lithium-Ion: Overcharge Protection Shuttles /
|r T J Richardson --
|t Secondary Batteries -- Lithium Rechargeable Systems -- Lithium-Ion: Thermal Runaway /
|r S Tobishima -- ^
|t Secondary Batteries -- Lithium Rechargeable Systems -- Lithium-Ion: Lifetime Prediction /
|r R E White --
|t Secondary Batteries -- Flow Systems: Overview /
|r F C Walsh
|
| 505 |
0 |
0 |
|a Note continued:
|t Secondary Batteries -- Flow Systems: Vanadium Redox-Flow Batteries /
|r M Skyllas-Kazacos --
|t Secondary Batteries -- Zinc Systems: Zinc Electrodes: Overview /
|r X G Zhang --
|t Secondary Batteries -- Zinc Systems: Zinc Electrodes: Solar Thermal Production /
|r S Steinfeld --
|t Secondary Batteries -- Zinc Systems: Zinc-Bromine /
|r F C Walsh --
|t Secondary Batteries -- Zinc Systems: Zinc-Manganese /
|r J Daniel-Lvad --
|t Secondary Batteries -- Zinc Systems: Zinc-Silver /
|r A P J R Serenyi.
|
| 650 |
|
0 |
|a Direct energy conversion
|v Encyclopedias.
|
| 650 |
|
0 |
|a Electrochemistry, Industrial
|v Encyclopedias.
|
| 650 |
|
6 |
|a �Energie
|0 (CaQQLa)201-0001760
|x Conversion directe
|0 (CaQQLa)201-0001760
|v Encyclop�edies.
|0 (CaQQLa)201-0377762
|
| 650 |
|
6 |
|a �Electrochimie industrielle
|0 (CaQQLa)201-0063450
|v Encyclop�edies.
|0 (CaQQLa)201-0377762
|
| 650 |
|
7 |
|a TECHNOLOGY & ENGINEERING
|x Electrical.
|2 bisacsh
|
| 650 |
|
7 |
|a Direct energy conversion
|2 fast
|0 (OCoLC)fst00894538
|
| 650 |
|
7 |
|a Electrochemistry, Industrial
|2 fast
|0 (OCoLC)fst00906383
|
| 655 |
|
2 |
|a Encyclopedia
|0 (DNLM)D019500
|
| 655 |
|
7 |
|a encyclopedias.
|2 aat
|0 (CStmoGRI)aatgf300129439
|
| 655 |
|
7 |
|a Encyclopedias
|2 fast
|0 (OCoLC)fst01423798
|
| 655 |
|
7 |
|a Encyclopedias.
|2 lcgft
|
| 655 |
|
7 |
|a Encyclop�edies.
|2 rvmgf
|0 (CaQQLa)RVMGF-000001062
|
| 700 |
1 |
|
|a Garche, J�urgen.
|
| 700 |
1 |
|
|a Dyer, Chris K.
|
| 776 |
0 |
8 |
|i Print version:
|t Encyclopedia of electrochemical power sources.
|d Amsterdam ; Boston : Academic Press : Imprint of Elsevier, �2009
|z 9780444520937
|w (DLC) 2009937314
|w (OCoLC)299711060
|
| 856 |
4 |
0 |
|u https://sciencedirect.uam.elogim.com/science/referenceworks/9780444527455
|z Texto completo
|
