| 000 | 10558nam a2200397 i 4500 | ||
|---|---|---|---|
| 005 | 20250918233833.0 | ||
| 008 | 140408t2013 si a g 001 0 eng d | ||
| 020 |
_a9789814310819 (hardback) _cRM327.31 |
||
| 020 | _a9814310816 (hardback) | ||
| 039 | 9 |
_a201407101709 _bhendon _c201407021120 _dhamudah _y04-08-2014 _zhamudah |
|
| 090 | _aTJ163.2.N344 3 | ||
| 090 |
_aTJ163.2 _b.N344 3 |
||
| 245 | 0 | 0 |
_aNanotechnology and energy : _bscience, promises and limits / _c[editors], Jochen Lambauer, Ulrich Fahl, Alfred Vo{u01EE} |
| 264 | 1 |
_aSingapore : _bPan Stanford, _c2013. |
|
| 264 | 4 | _c©2013. | |
| 300 |
_axxiii, 349, [28] pages : _billustrations (some color) ; _c24 cm |
||
| 336 |
_atext _2rdacontent |
||
| 337 |
_aunmediated _2rdamedia |
||
| 338 |
_avolume _2rdacarrier |
||
| 504 | _aIncludes bibliographical references and index. | ||
| 505 | 0 | 0 |
_tNotes on the Contributors -- _tForeword -- _g1. _tChallenges in the Energy Sector and Future Role of Nanotechnology / _rJochen Lambauer, Dr. Ulrich Fahl, Prof. Dr. Alfred Voβ -- _g1.1. _tThe Energy Sector in Germany and Its Future, Challenges -- _g1.1.1. _tDemographic and Economic Development -- _g1.1.2. _tDevelopment of Prices for Fossil Energy Sources -- _g1.1.3. _tPrimary Energy Consumption -- _g1.1.4. _tElectricity Generation -- _g1.1.5. _tFinal Energy Consumption -- _g1.1.6. _tEnergy Productivity and Energy Intensity -- _g1.1.7. _tEmissions -- _g1.2. _tNanotechnology and Energy -- _g2. _tPrinciples of Nanotechnology -- _g2.1. _tDefinition and Classification / _rJochen Lambauer, Dr. Ulrich Fahl, Prof. Dr. Alfred Voβ -- _g2.2. _tScientific and Technical Background / _rJochen Lambauer, Dr. Ulrich Fahl, Prof. Dr. Alfred Voβ -- _g2.2.1. _tNanomaterials -- _g2.2.1.1. _tPoint-shaped structures -- _g2.2.1.2. _tLine-shaped structures -- _g2.2.1.3. _tLayer structures -- _g2.2.1.4. _tPore structures -- _g2.2.1.5. _tComplex structures -- _g2.2.2. _tTop-Down and Bottom-Up Strategy -- _g2.2.3. _tTools and Production Processes -- _g2.2.3.1. _tVapour deposition -- _g2.2.3.2. _tManufacturing from liquid or dissolved raw materials -- _g2.2.3.3. _tManufacturing from solid raw materials -- _g2.2.3.4. _tLithography -- _g2.2.3.5. _tSelf-organisation -- _g2.2.3.6. _tNanoanalytics -- _g2.3. _tInnovation and Economic Potential / _rDr. Wolfgang Luther -- _g2.3.1. _tNanotechnology as a Cross-Cutting Innovation Field -- _g2.3.2. _tEconomic Relevance of Nanotechnology -- _g2.3.3. _tNanotechnology Companies in the Value-Added Chain -- _g2.4. _tRisk and Safety Issues / _rNiels Boeing -- _g2.4.1. _tThe Image of Nanotechnology: Three Phases -- _g2.4.1.1. _tPre-2000: the futuristic phase -- _g2.4.1.2. _t2000-2006: the nanomarkets phase -- _g2.4.1.3. _tSince 2006: the sceptical phase -- _g2.4.2. _tA Systematic Approach to Nanotechnology Risks -- _g2.4.2.1. _tPrimary nanorisks: impacts on health and the environment -- _g2.4.2.2. _tSecondary nanorisks: impacts on society and the economy -- _g2.4.3. _tConclusion -- _g2.5. _tPublic Perception of Nanotechnologies: Challenges and Recommendations for Communication Strategies and Dialogue Concepts / _rDr. Antje Grobe, Nico Kreinberger -- _g2.5.1. _tIntroduction -- _g2.5.2. _tPsychological, Social, and Cultural Factors of Risk Perception -- _g2.5.3. _tPublic Perception of Nanotechnologies: an International Comparison -- _g2.5.4. _tConsumer's Perception of Nanotechnologies in German Language Areas -- _g2.5.5. _tAttitudes Towards Nanotechnologies in the Energy Sector -- _g2.5.6. _tRequirements for Consumer Communication -- _g2.5.7. _tConclusions: Recommendations for Communication Strategies and Dialogue Concepts -- _g3. _tExamples for Nanotechnological Applications in the Energy Sector -- _g3.1. _tAerogels: Porous Sol-Gel-Derived Solids for Applications in Energy Technologies / _rDr. Gudrun Reichenauer -- _g3.1.1. _tAerogels-Synthesis and Properties -- _g3.1.1.1. _tSynthesis -- _g3.1.1.2. _tStructural properties -- _g3.1.2. _tProperties Meeting Applications -- _g3.1.2.1. _tThermal insulation -- _g3.1.2.2. _tComponents for energy storage -- _g3.1.2.3. _tCatalysts supports -- _g3.1.2.4. _tOther energy-related fields of application -- _g3.1.3. _tProblems to be Solved for a Broad Introduction of Aerogels in Energy-Related Applications -- _g3.1.4. _tConclusions -- _g3.2. _tEnergy Sources and Conversion -- _g3.2.1. _tDye Solar Cells / _rDr. Claus Lang-Koetz, Dr. Andreas Hinsch, Dr. Severin Beucker -- _g3.2.1.1. _tDSC technology and its application -- _g3.2.1.2. _tCharacteristics of DSC modules -- _g3.2.1.3. _tManufacturing steps for DSC modules -- _g3.2.1.4. _tIndustrial production for DSC modules -- _g3.2.1.5. _tApplication scenarios for future DSC products -- _g3.2.1.6. _tEnvironmental impact -- _g3.2.1.7. _tConclusions and outlook -- _g3.2.2. _tNanoscale Thermoelectrics -- a Concept for Higher Energy Efficiency? / _rDr. Harald B说tner, Jan K诮ig -- _g3.2.2.1. _tIntroduction -- _g3.2.2.2. _tInitial concepts of nanoscale thermoelectrics -- _g3.2.2.3. _tCurrent concepts of nanoscale thermoelectrics -- _g3.2.2.4. _tNanocomposite bulk materials -- _g3.2.2.5. _tSummary and outlook -- _g3.2.3. _tNanostructured Ceramic Membranes for Carbon Capture and Storage / _rDr. Martin Bram, Dr. Tim van Gestel, Dr. Wilhelm Albert Meulenberg, Prof. Dr. Detlev St诶er -- _g3.2.3.1. _tRequirements of membranes for gas separation in post- and pre-combustion power plants -- _g3.2.3.2. _tGas separation with microporous ceramic membranes -- _g3.2.3.3. _tMembrane materials -- _g3.2.3.4. _tPerformance of microporous ceramic membranes -- _g3.2.3.5. _tSummary and conclusion -- _g3.3. _tEnergy Storage and Distribution -- _g3.3.1. _tMaterials for Energy Storage / _rDr. Wiebke Lohstroh -- _g3.3.1.1. _tMaterials for hydrogen storage -- _g3.3.1.2. _tPhysiorption materials -- _g3.3.1.3. _tChemisorption materials -- _g3.3.1.4. _tMaterials for energy storage in batteries -- _g3.3.1.5. _t'New' battery materials -- _g3.3.1.6. _tConclusions -- _g3.4. _tEnergy Use -- _g3.4.1. _tNanotechnology in Construction / _rDr. Wenzhong Zhu -- _g3.4.1.1. _tGeneral development -- _g3.4.1.2. _tApplication areas -- _g3.4.1.3. _tFuture prospect -- _g3.4.2. _tActive Windows for Daylight-Guiding Applications / _rAndreas J衫el, Qingdang Li, J诲g Clobes, Volker Viereck, Prof. Dr. Hartmut Hillmer -- _g3.4.2.1. _tIntroduction and basics -- _g3.4.2.2. _tComplete active window -- _g3.4.2.3. _tRegulation concepts for active windows -- _g3.4.2.4. _tProduction of micromirror arrays -- _g3.4.3. _tEnergy Efficiency Potential of Nanotechnology in Production Processes / _rDr. Karl-Heinz Haas -- _g3.4.3.1. _tIntroduction -- _g3.4.3.2. _tTypes and properties of nanoscaled materials -- _g3.4.3.3. _tProduction processes of nanomaterials -- _g3.4.3.4. _tNanotechnologies in production processes -- _g3.4.3.5. _tThe vision of molecular manufacturing -- _g3.4.3.6. _tConclusion, summary, and outlook -- _g4. _tPotential Analysis and Assessment of the Impact of Nanotechnology on the Energy Sector Until 2030 -- _g4.1. _tMethodological Approach / _rJochen Lambauer, Dr. Ulrich Fahl, Prof. Dr. Alfred Voβ -- _g4.2. _tEnvironmental Impact and Energy Demand of Nanotechnology / _rMichael Steinfeldt -- _g4.2.1. _tEnvironmental Reliefs Potentials of Nanotechnology -- _g4.2.2. _tEvaluation of Specific Application Contexts: Life Cycle Assessment -- _g4.2.3. _tEvaluation of Specific Manufactured Nanoparticles -- _g4.3. _tPotentials of Nanotechnology for Improvements in Energy Efficiency and Emission Reduction / _rJochen Lambauer, Dr. Ulrich Fahl, Prof. Dr. Alfred Voβ -- _g4.3.1. _tEnergy Sources and Conversion -- _g4.3.1.1. _tSolar heat and photovoltaics -- _g4.3.1.2. _tFuel cells -- _g4.3.1.3. _tFuel additives -- _g4.3.1.4. _tNanostructured membranes -- _g4.3.1.5. _tThermoelectric generators -- _g4.3.2. _tEnergy Storage and Distribution -- _g4.3.3. _tEnergy Use -- _g4.3.3.1. _tLED and OLED in illumination -- _g4.3.3.2. _tNew display technologies -- _g4.3.3.3. _tUltra-high-performance concrete -- _g4.3.3.4. _tInsulation with vacuum-insulation panels -- _g4.3.3.5. _tPolycarbonates for automotive glazing -- _g4.3.3.6. _tNano-lacquers -- _g4.3.3.7. _tNanocatalysts -- _g4.3.3.8. _tNanoparticles in synthetic production -- _g4.3.3.9. _tNanpoarticles in tyre compounds -- _g4.3.3.10. _tNano-based coatings to reduce friction -- _g4.3.4. _tTheoretical Potentials of Nanotechnology -- _g4.4. _tScenario and Sensitivity Analyses for Impacts of Nanotechnological Applications / _rJochen Lambauer, Dr. Ulrich Fahl, Prof. Dr. Alfred Voβ -- _g4.4.1. _tEnergy Sources and Conversion -- _g4.4.1.1. _tSolar heat and photovoltaics -- _g4.4.1.2. _tFuel cells -- _g4.4.1.3. _tFuel additives -- _g4.4.1.4. _tNano-based membranes for carbon capture and storage -- _g4.4.1.5. _tThermoelectric generators -- _g4.4.2. _tEnergy Storage and Distribution -- _g4.4.3. _tEnergy Use -- _g4.4.3.1. _tLED and OLED in illumination -- _g4.4.3.2. _tNew display technologies -- _g4.4.3.3. _tUltra-high-performance concrete -- _g4.4.3.4. _tInsulation with vacuum-insulation panels -- _g4.4.3.5. _tPolycarbonates for automotive glazing -- _g4.4.3.6. _tNano-lacquers -- _g4.4.3.7. _tNanocatalysts for styrene manufacturing -- _g4.4.3.8. _tNanoparticles in synthetic production -- _g4.4.3.9. _tNanoparticles in tyre compounds -- _g4.4.3.10. _tNano-based coatings to reduce friction -- _g4.5. _tComprehensive Subsumption of Nanotechnology in the Energy Sector / _rJochen Lambauer, Dr. Ulrich Fahl, Prof. Dr. Alfred Voβ -- _tIndex. |
| 520 | _a'This book gives an overview of nanotechnological applications within the value chain of the energy sector and evaluates selected applications and their direct and indirect impacts on the energy sector. It presents selected nanotechnological applications that influence the energy economy significantly. Furthermore, the authors give a comprehensive description of the impacts and outcomes of selected nanotechnological applications on energy consumption, energy sources, energy supply, and the energy industry in Germany and show the potential of these applications for energy savings, improvement in energy efficiency, and the reduction of emissions until 2030.'--Publisher. | ||
| 650 | 0 |
_aPower resources _xTechnological innovations. |
|
| 650 | 0 | _aNanotechnology. | |
| 700 | 1 |
_aLambauer, Jochen, _eeditor. |
|
| 700 | 1 |
_aFahl, Ulrich, _d1959-, _eeditor. |
|
| 700 | 1 |
_aVoss, Alfred, _eeditor. |
|
| 907 |
_a.b15871290 _b2019-11-12 _c2019-11-12 |
||
| 942 |
_c01 _n0 _kTJ163.2.N344 3 |
||
| 914 | _avtls003556130 | ||
| 990 | _aha | ||
| 991 | _aFakulti Kejuruteraan dan Alam Bina | ||
| 998 |
_al _b2014-08-04 _cm _da _feng _gsi _y0 _z.b15871290 |
||
| 999 |
_c566914 _d566914 |
||