Energy production and storage are central problems for our time. In principle, abundant energy is available from the sun to run the earth in a sustainable way. Solar energy can be directly harnessed by agricultural and photovoltaic means, but the sheer scale of the energy demand poses severe challenges, for example any major competition between biomass production and food production would simply transfer scarcity from energy to food. Indirect use of solar energy in the form of wind looks also promising, especially for those regions not blessed with abundant sunlight. Other modes such as tidal and wave energy may well become important niche players. Inorganic chemistry plays a decisive role in the development of new energy technologies and this Volume covers some promising modes of alternative energy production and storage that minimize the atmospheric burden of fossil-derived carbon monoxide. No one production or storage mode is likely to dominate, at least at first, and numerous possibilities need to be explored to compare their technical feasibility and economics. This provides the context for a broad exploration of novel ideas that we are likely to see in future years as the field expands. This Volume covers a wide range of topics, such as: - Water splitting, only water is a sufficiently cheap and abundant electron source for global exploitation; - Energy conversion by photosynthesis; - Molecular catalysts for water splitting; - Thermochemical water splitting; - Photocatalytic hydrogen production; - Artificial photosynthesis, progress of the Swedish Consortium; - Hydrogen economy; - Reduction of carbon dioxide to useful fuels; - Conversion of methane to methanol; - Dye sensitized solar cells; - Photoinitiated electron transfer in fuel cells; - Proton exchange membranes for fuel cells; - Intermediate temperature solid oxide fuel cells; - Direct Ethanol fuel cells; - Molecular catalysis for fuel cells; - Enzymes and microbes in fuel cells; - Li-Ion batteries; - Magic Angle Spinning NMR studies of battery materials; Supercapacitors and electrode materials. About EIC Books The Encyclopedia of Inorganic Chemistry (EIC) has proved to be one of the defining standards in inorganic chemistry, and most chemistry libraries around the world have access either to the first or second print edition, or to the online version. Many readers, however, prefer to have more concise thematic volumes, targeted to their specific area of interest. This feedback from EIC readers has encouraged the Editors to plan a series of EIC Books, focusing on topics of current interest. They will appear on a regular basis, and will feature leading scholars in their fields. Like the Encyclopedia, EIC Books aim to provide both the starting research student and the confirmed research worker with a critical distillation of the leading concepts in inorganic and bioinorganic chemistry, and provide a structured entry into the fields covered. This volume is also available as part of Encyclopedia of Inorganic Chemistry, 5 Volume Set. This set combines all volumes published as EIC Books from 2007 to 2010, representing areas of key developments in the field of inorganic chemistry published in the Encyclopedia of Inorganic Chemistry. Find out more.

Energy production and storage are central problems for our time. Inprinciple, abundant energy is available from the sun to run theearth in a sustainable way. Solar energy can be directly harnessedby agricultural and photovoltaic means, but the sheer scale of theenergy demand poses severe challenges, for example any majorcompetition between biomass production and food production wouldsimply transfer scarcity from energy to food. Indirect use of solarenergy in the form of wind looks also promising, especially forthose regions not blessed with abundant sunlight. Other modes suchas tidal and wave energy may well become important niche players.Inorganic chemistry plays a decisive role in the development ofnew energy technologies and this Volume covers somepromising modes of alternative energy production and storage thatminimize the atmospheric burden of fossil-derived carbon monoxide.No one production or storage mode is likely to dominate, at leastat first, and numerous possibilities need to be explored to comparetheir technical feasibility and economics. This provides thecontext for a broad exploration of novel ideas that we are likelyto see in future years as the field expands.This Volume covers a wide range of topics, such as: - Watersplitting, only water is a sufficiently cheap and abundant electronsource for global exploitation; - Energy conversion byphotosynthesis; - Molecular catalysts for water splitting;Thermochemical water splitting; - Photocatalytic hydrogenproduction; - Artificial photosynthesis, progress of the SwedishConsortium; - Hydrogen economy; - Reduction of carbon dioxide touseful fuels; - Conversion of methane to methanol; - Dye sensitizedsolar cells; - Photoinitiated electron transfer in fuel cells;Proton exchange membranes for fuel cells; - Intermediatetemperature solid oxide fuel cells; - Direct Ethanol fuel cells;Molecular catalysis for fuel cells; - Enzymes and microbes in fuelcells; - Li-Ion batteries; - Magic Angle Spinning NMR studies ofbattery materials; Supercapacitors and electrode materials.About EIC BooksThe Encyclopedia of Inorganic Chemistry (EIC) has provedto be one of the defining standards in inorganic chemistry, andmost chemistry libraries around the world have access either to thefirst or second print edition, or to the online version. Manyreaders, however, prefer to have more concise thematic volumestargeted to their specific area of interest. This feedback from EICreaders has encouraged the Editors to plan a series of EIC Booksfocusing on topics of current interest. They will appear on aregular basis, and will feature leading scholars in their fields.Like the Encyclopedia, EIC Books aim to provide both the startingresearch student and the confirmed research worker with a criticaldistillation of the leading concepts in inorganic and bioinorganicchemistry, and provide a structured entry into the fieldscovered.This volume is also available as part of Encyclopedia ofInorganic Chemistry, 5 Volume Set.This set combines all volumes published as EIC Books from 2007to 2010, representing areas of key developments in the field ofinorganic chemistry published in the Encyclopedia of InorganicChemistry. href="eu.wiley.com/WileyCDA/WileyTitle/productCd-1119994284.html">Findout more.

Contributors.Series Preface.Volume Preface.PART 1: ENERGY PRODUCTION.H2 Production from Renewables (Rufino M. Navarro, M.Cruz Sanchez-Sanchez, M. Consuelo Alvarez-Galvan, Jose Luis G.Fierro and Saeed M. Al-Zaharani).Energy Conversion in Photosynthesis (Gozde Ulas and Gary W.Brudvig).Molecular Catalysts for Oxygen Production from Water (AntoniLlobet and Sophie Romain).Dye-Sensitized Solar Cells: an Overview (Luisa AndradeHelena Aguilar Ribeiro and Adelio Mendes).Enzymes and Microbes for Energy Production by Fuel Cells(Frederic Barriere).Proton Exchange Membranes for Fuel Cells (RamDevanathan).Methane-to-Methanol Conversion (Brian G. Hashiguchi, Claas H.H¨ovelmann, Steven M. Bischof, Kapil S. Lokare, Chin Hin Leungand Roy A. Periana).Photocatalytic Hydrogen Production from Water (Shamindri M.Arachchige and Karen J. Brewer).Intermediate-Temperature Solid Oxide Fuel Cells (AlanAtkinson, John Kilner, Stephen Skinner, Nigel P. Brandon and Dan J.L. Brett).Some Computational Challenges in Energy Research (Victor S.Batista).Toward Solar Fuels Using a Biomimetic Approach: Progress in theSwedish Consortium for Artificial Photosynthesis (Sascha OttStenbj¨orn Styring, Leif Hammarstr¨om and OlofJohansson).Direct Ethanol Fuel Cells (Zhi Wen Chia and Jim YangLee).Molecular Catalysis for Fuel Cells (Kenichi Oyaizu).Recent Advances in Photo-Initiated Electron-Transfer at theInterface between Anatase TiO2 Nanocrystallites andTransition-Metal Polypyridyl Compounds (Shane Ardo and Gerald J.Meyer).Electrochemical and Photoelectrochemical Conversion of CO2 toAlcohols (Robert H. Crabtree).PART 2: ENERGY STORAGE.Hydrogen Economy (Stephen A. Wells, Asel SartbaevaVladimir L. Kuznetsov and Peter P. Edwards).Thermal Stability of Lithium Ion Battery Electrolytes (BrettL. Lucht, Tippawan Markmaitree and Li Yang).Supercapacitors: Electrode Materials Aspects (Li Li ZhangZhibin Lei, Jintao Zhang, Xiaoning Tian and Xiu Song Zhao).Thermochemical Water-Splitting (Ali T-Raissi).Lithium Ion Batteries for Transportation and Electrical EnergyStorage Applications: Nuclear Magnetic Resonance Studies ofStructure and Function (Jordi Cabana and Clare P. Grey).Index.