Advances in electronic materials for clean energy conversion and storage applications
Advances in Electronic Materials for Clean Energy Conversion and Storage Applications reviews green synthesis and fabrication techniques of various electronic materials and their derivatives for applications in photovoltaics. The book investigates recent advances, progress and issues of photovoltaic...
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| Format: | E-Book |
| Sprache: | English |
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Oxford
Woodhead Publishing
2023
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| Schriftenreihe: | Woodhead Publishing series in electronic and optical materials
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| Online-Zugang: | Volltext |
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| 020 | |a 0323912060 | ||
| 020 | |a 0323914470 | ||
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| 245 | 0 | 0 | |a Advances in electronic materials for clean energy conversion and storage applications |c edited by Aftab Aslam Parwaz Khan, Mohammed Nazim, Abdullah M. Asiri |
| 264 | 1 | |a Oxford |b Woodhead Publishing |c 2023 | |
| 300 | |a 1 Online-Ressource | ||
| 336 | |b txt | ||
| 337 | |b c | ||
| 338 | |b cr | ||
| 490 | 0 | |a Woodhead Publishing series in electronic and optical materials | |
| 500 | |a <b>Part I: Advanced electronic materials for solar energy applications</b><br>1. Introduction to advanced electronic materials for solar energy applications<br>2. Advanced electronic materials for engineering energy applications<br>3. Carbon-based nanomaterials for solar energy<br>4. Quantum dots/Nanoparticles for solar energy<br>5. Organic semiconducting materials for solar energy<br>6. Small molecule organic solar cells<br>7. Polymer Organic Solar Cells<br>8. Metal halide hybrid perovskite materials for solar energy<br>9. Metal-halide perovskite nanomaterials and applications<br>10. Metal-halide perovskites for hybrid solar cells<br>11. Photon-downconversion materials for solar energy<br>12. Quantum dot as photon-downconversion materials<br>13. Organic dyes as photon-downconversion materials<br>14. Polymer-based nanocomposite for solar energy applications<br>15. Prospects and future perspective of electronic materials for solar cell applications<br><br><b>Part II. Advanced electronic materials for energy storage (supercapacitor and battery) applications</b><br>16. Introduction to advanced electronic materials for energy storage applications<br>17. Advanced electronic materials for engineering energy storage applications<br>18. Carbon-based nanomaterials for supercapacitor electrode materials<br>19. Transition metal oxide nanomaterials as electrodes for supercapacitor applications<br>20. Transition metal oxides as electrode materials<br>21. Graphene derivative/transition metal oxides nanocomposites as electrode materials<br>22. Polymers-based nanocomposite as electrode materials for supercapacitor applications<br>23. Transition metal oxide nanomaterials-based electrodes for battery applications<br>24. Carbon-based nanomaterials for battery applications<br>25. Graphene-derivative decorated transition-metal oxide nanocomposites for battery applications<br>26. Prospects and future perspective of nanomaterials for energy storage applications | ||
| 520 | |a Advances in Electronic Materials for Clean Energy Conversion and Storage Applications reviews green synthesis and fabrication techniques of various electronic materials and their derivatives for applications in photovoltaics. The book investigates recent advances, progress and issues of photovoltaic-based research, including organic, hybrid, dye-sensitized, polymer, and quantum dot-based solar cells. There is a focus on applications for clean energy and storage in the book. Clean energy is defined as energy derived from renewable resources or zero-emission sources and natural processes that are regenerative and sustainable resources such as biomass, geothermal energy, hydropower, solar and wind energy. Materials discussed include nanomaterials, nanocomposites, polymers, and polymer-composites. Advances in clean energy conversion and energy storage devices are also reviewed thoroughly based on recent research and developments such as supercapacitors, batteries etc. Reliable methods to characterize and analyze these materials systems and devices are emphasized throughout the book. Important information on synthesis and analytical chemistry of these important systems are reviewed, but also material science methods to investigate optical properties of carbon-nanomaterials, metal oxide nanomaterials and their nanocomposites. Reviews the latest advances in electronic materials synthesis, fabrication and application in energy Discusses green, cost-effective, simple and large-scale production of electronic materials Includes critical materials and device characterization techniques that enhance our understanding of materials' properties and measure device performance. | ||
| 700 | 1 | |a Asiri, Abdullah M. | |
| 700 | 1 | |a Khan, Aftab Aslam Parwaz | |
| 700 | 1 | |a Nazim, Mohammed | |
| 776 | 0 | 8 | |i Erscheint auch als |n Druck-Ausgabe |z 9780323912068 |
| 856 | 4 | 0 | |l TUM01 |p ZDB-10-ESC |q TUM_PDA_ESC |u https://app.knovel.com/hotlink/toc/id:kpAEMCECS1/advances-in-electronic?kpromoter=marc |3 Volltext |
| 912 | |a ZDB-10-ESC | ||
| 912 | |a ZDB-10-ESC | ||
| 049 | |a DE-91 | ||
Datensatz im Suchindex
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Carbon-based nanomaterials for solar energy<br>4. Quantum dots/Nanoparticles for solar energy<br>5. Organic semiconducting materials for solar energy<br>6. Small molecule organic solar cells<br>7. Polymer Organic Solar Cells<br>8. Metal halide hybrid perovskite materials for solar energy<br>9. Metal-halide perovskite nanomaterials and applications<br>10. Metal-halide perovskites for hybrid solar cells<br>11. Photon-downconversion materials for solar energy<br>12. Quantum dot as photon-downconversion materials<br>13. Organic dyes as photon-downconversion materials<br>14. Polymer-based nanocomposite for solar energy applications<br>15. Prospects and future perspective of electronic materials for solar cell applications<br><br><b>Part II. Advanced electronic materials for energy storage (supercapacitor and battery) applications</b><br>16. Introduction to advanced electronic materials for energy storage applications<br>17. 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| id | ZDB-10-ESC-on1376264274 |
| illustrated | Illustrated |
| indexdate | 2024-12-18T12:06:33Z |
| institution | BVB |
| isbn | 0323912060 0323914470 9780323912068 9780323914475 |
| language | English |
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| series2 | Woodhead Publishing series in electronic and optical materials |
| spelling | Advances in electronic materials for clean energy conversion and storage applications edited by Aftab Aslam Parwaz Khan, Mohammed Nazim, Abdullah M. Asiri Oxford Woodhead Publishing 2023 1 Online-Ressource txt c cr Woodhead Publishing series in electronic and optical materials <b>Part I: Advanced electronic materials for solar energy applications</b><br>1. Introduction to advanced electronic materials for solar energy applications<br>2. Advanced electronic materials for engineering energy applications<br>3. Carbon-based nanomaterials for solar energy<br>4. Quantum dots/Nanoparticles for solar energy<br>5. Organic semiconducting materials for solar energy<br>6. Small molecule organic solar cells<br>7. Polymer Organic Solar Cells<br>8. Metal halide hybrid perovskite materials for solar energy<br>9. Metal-halide perovskite nanomaterials and applications<br>10. Metal-halide perovskites for hybrid solar cells<br>11. Photon-downconversion materials for solar energy<br>12. Quantum dot as photon-downconversion materials<br>13. Organic dyes as photon-downconversion materials<br>14. Polymer-based nanocomposite for solar energy applications<br>15. Prospects and future perspective of electronic materials for solar cell applications<br><br><b>Part II. Advanced electronic materials for energy storage (supercapacitor and battery) applications</b><br>16. Introduction to advanced electronic materials for energy storage applications<br>17. Advanced electronic materials for engineering energy storage applications<br>18. Carbon-based nanomaterials for supercapacitor electrode materials<br>19. Transition metal oxide nanomaterials as electrodes for supercapacitor applications<br>20. Transition metal oxides as electrode materials<br>21. Graphene derivative/transition metal oxides nanocomposites as electrode materials<br>22. Polymers-based nanocomposite as electrode materials for supercapacitor applications<br>23. Transition metal oxide nanomaterials-based electrodes for battery applications<br>24. Carbon-based nanomaterials for battery applications<br>25. Graphene-derivative decorated transition-metal oxide nanocomposites for battery applications<br>26. Prospects and future perspective of nanomaterials for energy storage applications Advances in Electronic Materials for Clean Energy Conversion and Storage Applications reviews green synthesis and fabrication techniques of various electronic materials and their derivatives for applications in photovoltaics. The book investigates recent advances, progress and issues of photovoltaic-based research, including organic, hybrid, dye-sensitized, polymer, and quantum dot-based solar cells. There is a focus on applications for clean energy and storage in the book. Clean energy is defined as energy derived from renewable resources or zero-emission sources and natural processes that are regenerative and sustainable resources such as biomass, geothermal energy, hydropower, solar and wind energy. Materials discussed include nanomaterials, nanocomposites, polymers, and polymer-composites. Advances in clean energy conversion and energy storage devices are also reviewed thoroughly based on recent research and developments such as supercapacitors, batteries etc. Reliable methods to characterize and analyze these materials systems and devices are emphasized throughout the book. Important information on synthesis and analytical chemistry of these important systems are reviewed, but also material science methods to investigate optical properties of carbon-nanomaterials, metal oxide nanomaterials and their nanocomposites. Reviews the latest advances in electronic materials synthesis, fabrication and application in energy Discusses green, cost-effective, simple and large-scale production of electronic materials Includes critical materials and device characterization techniques that enhance our understanding of materials' properties and measure device performance. Asiri, Abdullah M. Khan, Aftab Aslam Parwaz Nazim, Mohammed Erscheint auch als Druck-Ausgabe 9780323912068 TUM01 ZDB-10-ESC TUM_PDA_ESC https://app.knovel.com/hotlink/toc/id:kpAEMCECS1/advances-in-electronic?kpromoter=marc Volltext |
| spellingShingle | Advances in electronic materials for clean energy conversion and storage applications |
| title | Advances in electronic materials for clean energy conversion and storage applications |
| title_auth | Advances in electronic materials for clean energy conversion and storage applications |
| title_exact_search | Advances in electronic materials for clean energy conversion and storage applications |
| title_full | Advances in electronic materials for clean energy conversion and storage applications edited by Aftab Aslam Parwaz Khan, Mohammed Nazim, Abdullah M. Asiri |
| title_fullStr | Advances in electronic materials for clean energy conversion and storage applications edited by Aftab Aslam Parwaz Khan, Mohammed Nazim, Abdullah M. Asiri |
| title_full_unstemmed | Advances in electronic materials for clean energy conversion and storage applications edited by Aftab Aslam Parwaz Khan, Mohammed Nazim, Abdullah M. Asiri |
| title_short | Advances in electronic materials for clean energy conversion and storage applications |
| title_sort | advances in electronic materials for clean energy conversion and storage applications |
| url | https://app.knovel.com/hotlink/toc/id:kpAEMCECS1/advances-in-electronic?kpromoter=marc |
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