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1. | EXECUTIVE SUMMARY |
1.1. | Executive summary and conclusions |
1.2. | Market forecasts for thermoelectric energy harvesters in different applications 2016-2028 |
1.3. | Wireless sensors, actuators, and wireless sensor networks |
1.4. | home automation, commercial & retail buildings, and industrial automation. |
1.5. | Waste heat recovery systems in vehicles |
1.6. | Consumer, military and aerospace applications |
1.7. | Additional challenges and opportunities for thermoelectric devices |
2. | INTRODUCTION |
2.1. | The Seebeck and Peltier effects |
2.2. | Manufacturing of thermoelectric generators |
2.2.1. | Thermoelectric generator design considerations |
2.3. | Thin film thermoelectric generators |
2.4. | Material choices |
2.5. | Organic thermoelectrics - PEDOT:PSS, not just a transparent conductor |
2.6. | Bi-functional thermoelectric generator/ pre-cooler: DC power from aircraft bleed air |
3. | OTHER PROCESSING TECHNIQUES |
3.1. | Manufacturing of flexible thermoelectric generators |
3.2. | AIST technology details |
4. | APPLICATIONS |
4.1. | Automotive applications |
4.1.1. | BMW |
4.1.2. | Ford |
4.1.3. | Volkswagen |
4.1.4. | Challenges of Thermoelectrics for Vehicles |
4.1.5. | Peak in overall car sales then peak in electric car sales k globally |
4.2. | Wireless sensing |
4.2.1. | TE-qNODE |
4.2.2. | TE-CORE |
4.2.3. | EverGen PowerStrap |
4.2.4. | WiTemp |
4.2.5. | GE Logimesh |
4.3. | Aerospace |
4.4. | implantable thermoelectrics |
4.5. | Thermoelectrics in consumer electronics/wearables |
4.5.1. | Matrix PowerWatch |
4.5.2. | Academic research on wearables |
4.5.3. | Device size requirements in wearables |
4.6. | Solar and thermoelectric energy harvesting in one device |
4.6.1. | Thermoelectric energy harvesting in consumer electronics- discussion |
4.6.2. | Thermoelectric energy harvesting in consumer electronics- power requirements |
4.6.3. | Thermoelectric energy harvesting in consumer electronics- e-textile integration |
4.7. | Thermoelectric energy harvesting in building & home automation - |
4.7.1. | The Sentinel |
4.7.2. | Home and commercial building automation - discussion |
4.8. | Other applications |
4.8.1. | Micropelt-MSX |
4.8.2. | PowerPot™ - Spark |
5. | INTERVIEWS - COMMERCIALIZATION CONSIDERATIONS |
5.1. | Ford |
5.2. | Microsemi |
5.3. | MSX Micropelt |
5.4. | Rolls Royce |
5.5. | TRW |
5.6. | Volvo |
6. | THERMOELECTRIC ENERGY HARVESTERS: MARKET FORECASTS |
6.1. | Applications and market segmentation |
6.1.1. | Wireless sensors and actuators |
6.1.2. | Smart buildings and Home automation |
6.1.3. | Military and Aerospace |
6.1.4. | Other industrial applications |
6.1.5. | Consumer applications |
6.1.6. | Other applications |
6.2. | Unit price considerations |
6.3. | Thermoelectrics for Energy Harvesting units value dollars 2016-2028 |
6.4. | Market forecasting revenue |
7. | COMPANY PROFILES |
7.1. | Alphabet Energy, Inc. |
7.2. | EVERREDtronics Ltd |
7.3. | Ferrotec Corporation |
7.4. | Gentherm |
7.5. | Global Thermoelectric (now Gentherm) |
7.6. | GMZ Energy |
7.7. | greenTEG |
7.8. | Hi Z Technology, Inc |
7.9. | KELK Ltd |
7.10. | Laird/ Nextreme |
7.11. | Marlow |
7.12. | mc10 |
7.13. | Micropelt GmbH |
7.14. | National Institute of Advanced Industrial Science & Technology (AIST) |
7.15. | Novus |
7.16. | O-Flexx |
7.17. | OTEGO |
7.18. | Perpetua |
7.19. | RGS Development |
7.20. | Romny Scientific |
7.21. | Tellurex Corporation |
7.22. | Termolife Energy Corporation |
7.23. | Yamaha |
Slides | 144 |
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Forecasts to | 2028 |