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Contents vii 2.5.3 Public Perception of Nanotechnologies: an International Comparison 71 2.5.4 Consumer’s Perception of Nanotechnologies in German Language Areas 76 2.5.5 Attitudes Towards Nanotechnologies in the Energy Sector 82 2.5.6 Requirements for Consumer Communication 83 2.5.7 Conclusions: Recommendations for Communication Strategies and Dialogue Concepts 85 3. Examples for Nanotechnological Applications in the Energy Sector 89 3.1 Aerogels: Porous Sol-Gel-Derived Solids for Applications in Energy Technologies 90 Dr. Gudrun Reichenauer 3.1.1 Aerogels–Synthesis and Properties 90 3.1.1.1 Synthesis 90 3.1.1.2 Structural properties 93 3.1.2 Properties Meeting Applications 94 3.1.2.1 Thermal insulation 94 3.1.2.2 Components for energy storage 102 3.1.2.3 Catalysts supports 106 3.1.2.4 Other energy-related fields of application 107 3.1.3 Problems to be Solved for a Broad Introduction of Aerogels in Energy-Related Applications 107 3.1.4 Conclusions 109 3.2 Energy Sources and Conversion 114 3.2.1 Dye Solar Cells 114 Dr. Claus Lang-Koetz, Dr. Andreas Hinsch, and Dr. Severin Beucker 3.2.1.1 DSC technology and its application 115 3.2.1.2 Characteristics of DSC modules 116 3.2.1.3 Manufacturing steps for DSC modules 118 3.2.1.4 Industrial production for DSC modules 119
viii Contents 3.2.1.5 Application scenarios for future DSC products 122 3.2.1.6 Environmental impact 123 3.2.1.7 Conclusions and outlook 125 3.2.2 Nanoscale Thermoelectrics – a Concept for Higher Energy Efficiency? 128 Dr. Harald Böttner and Jan König 3.2.2.1 Introduction 129 3.2.2.2 Initial concepts of nanoscale thermoelectrics 130 3.2.2.3 Current concepts of nanoscale thermoelectrics 131 3.2.2.4 Nanocomposite bulk materials 138 3.2.2.5 Summary and outlook 142 3.2.3 Nanostructured Ceramic Membranes for Carbon Capture and Storage 144 Dr.MartinBram,Dr.TimvanGestel, Dr. Wilhelm Albert Meulenberg, and Prof. Dr. Detlev Stöver 3.2.3.1 Requirements of membranes for gas separation in post- and pre-combustion power plants 144 3.2.3.2 Gas separation with microporous ceramic membranes 147 3.2.3.3 Membrane materials 149 3.2.3.4 Performance of microporous ceramic membranes 153 3.2.3.5 Summary and conclusion 159 3.3 Energy Storage and Distribution 162 3.3.1 Materials for Energy Storage 162 Dr. Wiebke Lohstroh 3.3.1.1 Materials for hydrogen storage 165 3.3.1.2 Physiorption materials 166 3.3.1.3 Chemisorption materials 167 3.3.1.4 Materials for energy storage in batteries 176 3.3.1.5 ‘New’ battery materials 180 3.3.1.6 Conclusions 184
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