03351nam a22004815i 4500001001800000003000900018005001700027007001500044008004100059020001800100020001900118024003500137040000900172082001600181100003500197245013800232264005900370300002100429336002600450337002600476338003900502347002400541490005300565505036300618520132900981650001502310650001502325650004402340650003002384650002002414650002302434650002002457650002202477650002002499650005702519650003202576650001502608710003402623773002002657776003602677830005302713856010302766978-0-387-49323-7DE-He21320260521091923.0cr nn 008mamaa100319s2009 xxu| s |||| 0|eng d a9780387493237 a997803874932377 a10.1007/978-0-387-49323-72doi cCICY04a620.1152231 aLeite, Edson Roberto.eeditor.10aNanostructured Materials for Electrochemical Energy Production and Storageh[recurso electrónico] /cedited by Edson Roberto Leite. 1aBoston, MA :bSpringer US :bImprint: Springer,c2009. bonline resource. atextbtxt2rdacontent acomputerbc2rdamedia arecurso en líneabcr2rdacarrier atext filebPDF2rda1 aNanostructure Science and Technology,x1571-57440 aRecent Applications of Nanoscale Materials: Solar Cells -- Assembly and Properties of Nanoparticles -- Electrochemistry, Nanomaterials, and Nanostructures -- Nanotechnology for Fuel Cells -- Vanadium Oxide Aerogels: Enhanced Energy Storage in Nanostructured Materials -- Nanostructured Composites: Structure, Properties, and Applications in Electrochemistry. aThe key problem facing new energy conversion and storage technologies remains device efficiency. Designs based on nanostructured materials can yield improved performance in devices employing electrochemical reactions and heterogeneous catalysis such as batteries and fuel and solar cells. Nanoscale structures dramatically alter the surface reaction rates and electrical transport throughout the material, causing a dramatic improvement in energy storage, conversion, and generation. This book describes properties of nanostructured materials that can be the basis of improved performance in a wide range of alternative energy devices. Fundamental concepts of nanostructured materials such as nanocrystal synthesis and properties, thermodynamics and defect chemistry, and interfacial and physical electrochemistry are presented as are the impact and application of nanoscale materials in specific alternative energy devices. These materials and devices promise not only the development of a wide range of new technologies, but also the potential for a more sustainable energy future. Nanostructured Materials for Electrochemical Energy Production and Storage is an authoritative and essential reference from world-renowned research groups for scientists and engineers in the fields of materials science and electrochemistry. 0aCHEMISTRY. 0aCATALYSIS. 0aPRODUCTION OF ELECTRIC ENERGY OR POWER. 0aRENEWABLE ENERGY SOURCES. 0aNANOTECHNOLOGY.14aMATERIALS SCIENCE.24aNANOTECHNOLOGY.24aELECTROCHEMISTRY.24aENERGY STORAGE.24aPOWER ELECTRONICS, ELECTRICAL MACHINES AND NETWORKS.24aRENEWABLE AND GREEN ENERGY.24aCATALYSIS.2 aSpringerLink (Online service)0 tSpringer eBooks08iPrinted edition:z9780387493220 0aNanostructure Science and Technology,x1571-574440uhttp://dx.doi.org/10.1007/978-0-387-49323-7zVer el texto completo en las instalaciones del CICY