Nanobatteries and nanogenerators: materials, technologies and applications
Intro -- Nanobatteries and Nanogenerators: Materials, Technologies and Applications -- Copyright -- Contents -- Contributors -- Part One: Basic principles of nanobattery -- Chapter One: Nanobattery: An introduction -- References -- Chapter Two: 3-D print battery -- 1. Introduction -- 2. 3-D printing...
Gespeichert in:
| 1. Verfasser: | |
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| Weitere Verfasser: | , , , |
| Format: | Elektronisch E-Book |
| Sprache: | English |
| Veröffentlicht: |
San Diego
Elsevier
2020
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| Schriftenreihe: | Micro and Nano Technologies Ser
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| Online-Zugang: | FWS01 FWS02 |
| Zusammenfassung: | Intro -- Nanobatteries and Nanogenerators: Materials, Technologies and Applications -- Copyright -- Contents -- Contributors -- Part One: Basic principles of nanobattery -- Chapter One: Nanobattery: An introduction -- References -- Chapter Two: 3-D print battery -- 1. Introduction -- 2. 3-D printing technologies -- 2.1. Powder bed fusion -- 2.2. Directed energy deposition -- 2.3. Material jetting process -- 2.4. Binder jetting process -- 2.5. Material extrusion -- 2.6. Vat photopolymerization -- 2.7. Lithography-based process -- 2.8. Sheet lamination -- 2.9. Aerosol jet printing -- 3. Battery materials -- 3.1. Materials for electrode -- 3.2. Materials for electrolyte -- 4. Application of 3-D printing battery -- 4.1. In air-vehicle/space-vehicle applications -- 4.2. In automobile -- 4.3. In electronic equipment -- 5. Advantages of 3-D print battery -- 6. Disadvantages of 3-D print battery -- 7. Conclusion -- References -- Chapter Three: Mathematical modeling for charging/discharging processes of batteries/nanobatteries -- 1. Introduction -- 2. Mathematical modeling -- 2.1. Electron transfer in anode -- 2.2. Electron transfer in cathode -- 2.3. Ion charge transfer through electrolyte in anode -- 2.4. Ion charge transfer through electrolyte in cathode -- 2.5. Ion charge transfer through electrolyte in separator -- 2.6. Li+ mass transfer through electrolyte in anode -- 2.7. Li+ mass transfer through electrolyte in cathode -- 2.8. Li+ mass transfer through electrolyte in separator -- 2.9. Li diffusion to active material of anode -- 2.10. Li diffusion to active material of cathode -- 2.11. Active area, local current generation, and cell voltage -- 2.12. Maximum concentration of lithium in an electrode active material -- 2.13. Lithium concentration in an electrode active material -- 2.14. State of charge (SOC) of an electrode active material |
| Beschreibung: | Description based on publisher supplied metadata and other sources |
| Beschreibung: | 1 Online-Ressource (666 pages) |
| ISBN: | 9780128215494 |
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| 520 | 3 | |a Intro -- Nanobatteries and Nanogenerators: Materials, Technologies and Applications -- Copyright -- Contents -- Contributors -- Part One: Basic principles of nanobattery -- Chapter One: Nanobattery: An introduction -- References -- Chapter Two: 3-D print battery -- 1. Introduction -- 2. 3-D printing technologies -- 2.1. Powder bed fusion -- 2.2. Directed energy deposition -- 2.3. Material jetting process -- 2.4. Binder jetting process -- 2.5. Material extrusion -- 2.6. Vat photopolymerization -- 2.7. Lithography-based process -- 2.8. Sheet lamination -- 2.9. Aerosol jet printing -- 3. Battery materials -- 3.1. Materials for electrode -- 3.2. Materials for electrolyte -- 4. Application of 3-D printing battery -- 4.1. In air-vehicle/space-vehicle applications -- 4.2. In automobile -- 4.3. In electronic equipment -- 5. Advantages of 3-D print battery -- 6. Disadvantages of 3-D print battery -- 7. Conclusion -- References -- Chapter Three: Mathematical modeling for charging/discharging processes of batteries/nanobatteries -- 1. Introduction -- 2. Mathematical modeling -- 2.1. Electron transfer in anode -- 2.2. Electron transfer in cathode -- 2.3. Ion charge transfer through electrolyte in anode -- 2.4. Ion charge transfer through electrolyte in cathode -- 2.5. Ion charge transfer through electrolyte in separator -- 2.6. Li+ mass transfer through electrolyte in anode -- 2.7. Li+ mass transfer through electrolyte in cathode -- 2.8. Li+ mass transfer through electrolyte in separator -- 2.9. Li diffusion to active material of anode -- 2.10. Li diffusion to active material of cathode -- 2.11. Active area, local current generation, and cell voltage -- 2.12. Maximum concentration of lithium in an electrode active material -- 2.13. Lithium concentration in an electrode active material -- 2.14. State of charge (SOC) of an electrode active material | |
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| illustrated | Not Illustrated |
| index_date | 2024-07-03T18:44:25Z |
| indexdate | 2024-08-01T16:15:14Z |
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| isbn | 9780128215494 |
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| spellingShingle | Song, Huaihe Nanobatteries and nanogenerators materials, technologies and applications |
| title | Nanobatteries and nanogenerators materials, technologies and applications |
| title_auth | Nanobatteries and nanogenerators materials, technologies and applications |
| title_exact_search | Nanobatteries and nanogenerators materials, technologies and applications |
| title_exact_search_txtP | Nanobatteries and nanogenerators materials, technologies and applications |
| title_full | Nanobatteries and nanogenerators materials, technologies and applications |
| title_fullStr | Nanobatteries and nanogenerators materials, technologies and applications |
| title_full_unstemmed | Nanobatteries and nanogenerators materials, technologies and applications |
| title_short | Nanobatteries and nanogenerators |
| title_sort | nanobatteries and nanogenerators materials technologies and applications |
| title_sub | materials, technologies and applications |
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