LEADER 01056nam 2200337 450 001 996225346903316 005 20170609111932.0 010 $a978-1-60845-430-3 010 $a978-1-60845-431-0 100 $a20170609d2011----km y0itay5003 ba 101 0 $aita 102 $aIT 105 0 $aa 00 y 200 1 $aLinked data$eevolving the web into a global data space$fTom Heat, Christian Bizer 205 $a5. ed. 210 $aWroclaw$cMorgan & Claypool Publishers$dcopyr. 2011 215 $dcm 225 2 $aSynthesis lectures on the semantic web$etheory and technology$v1 410 0 $aSynthesis lectures on the semantic web$etheory and technology 606 0 $aWorld Wide Web$2BNCF 676 $a004.678 700 1$aHEATH,$bTom$0742475 701 1$aBIZER,$bChristian$0742476 801 0 $aIT$bsalbc$gISBD 912 $a996225346903316 951 $a004.678 HEA 1$b23243 Ing.$c004$d00332009 951 $a004.678 HEA 1 a$b23242 Ing.$c004$d00332010 959 $aBK 969 $aTEC 996 $aLinked data$91475195 997 $aUNISA LEADER 01276oam 2200385Ia 450 001 9910702391803321 005 20121115140824.0 035 $a(CKB)5470000002426236 035 $a(OCoLC)816701826 035 $a(EXLCZ)995470000002426236 100 $a20121109d2012 ua 0 101 0 $aeng 135 $aurbn||||a|||| 181 $ctxt$2rdacontent 182 $cc$2rdamedia 183 $acr$2rdacarrier 200 10$aCapital [section] 2254 habeas cases$b[electronic resource] $ea pocket guide for judges /$fKristine M. 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Bruce, Dermot O'Hare, Richard I. Walton 210 $aChichester, West Sussex, U.K. $cWiley$d2011 215 $a1 online resource (305 p.) 225 1 $aInorganic materials series 300 $aDescription based upon print version of record. 311 $a0-470-99752-4 320 $aIncludes bibliographical references and index. 327 $aEnergy Materials; Contents; Inorganic Materials Series Preface; Preface; List of Contributors; 1 Polymer Electrolytes; 1.1 Introduction; 1.1.1 Context; 1.1.2 Polymer Electrolytes - The Early Years; 1.2 Nanocomposite Polymer Electrolytes; 1.3 Ionic Liquid Based Polymer Electrolytes; 1.3.1 Ionic Liquid Properties; 1.3.2 Ion Gels; 1.3.3 Polymer Electrolytes Based on Polymerisable Ionic Liquids; 1.4 Crystalline Polymer Electrolytes; 1.4.1 Crystalline Polymer: Salt Complexes; References; 2 Advanced Inorganic Materials for Solid Oxide Fuel Cells; 2.1 Introduction 327 $a2.1.1 Conventional SOFC Electrolytes2.1.2 Conventional Anodes; 2.1.3 Conventional Cathodes; 2.1.4 Summary; 2.2 Next Generation SOFC Materials; 2.2.1 Novel Electrolyte Materials; 2.2.2 Novel Cathodes; 2.2.3 Ceramic and Sulfur Tolerant Anodes; 2.3 Materials Developments through Processing; 2.4 Proton Conducting Ceramic Fuel Cells; 2.4.1 Materials for Proton Conducting Solid Oxide Fuel Cells (PC-SOFCs); 2.5 Summary; References; 3 Solar Energy Materials; 3.1 Introduction; 3.1.1 The Solar Spectrum; 3.1.2 The Photovoltaics Industry; 3.1.3 Terminology; 3.2 Development of PV Technology 327 $a3.2.1 First Generation: Crystalline Silicon (c-Si)3.2.2 Second Generation: Thin-Film Technologies; 3.2.3 Third Generation: Nanotechnology/Electrochemical PVs; 3.3 Summary; Acknowledgements; References; 4 Hydrogen Adsorption on Metal Organic Framework Materials for Storage Applications; 4.1 Introduction; 4.2 Hydrogen Adsorption Experimental Methods; 4.3 Activation of MOFs; 4.4 Hydrogen Adsorption on MOFs; 4.4.1 Hydrogen Adsorption Capacity Studies; 4.4.2 Temperature Dependence of Hydrogen Physisorption; 4.4.3 Hydrogen Surface Interactions in Pores 327 $a4.4.4 Framework Flexibility and Hysteretic Adsorption4.4.5 Comparison of Hydrogen and Deuterium Adsorption; 4.5 Conclusions; Acknowledgements; References; Index 330 $aIn an age of global industrialisation and population growth, the area of energy is one that is very much in the public consciousness. 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