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Small-scale energy harvesting through thermoelectric, vibration, and radiofrequency power conversion

2008; American Institute of Physics; Volume: 103; Issue: 10 Linguagem: Inglês

10.1063/1.2918987

1520-8850

Nicholas S. Hudak, Glenn G. Amatucci,

Advanced Thermoelectric Materials and Devices

As sensors for a wide array of applications continue to shrink and become integrated, increasing attention has been focused on creating autonomous devices with long-lasting power supplies. To achieve this, energy will have to be harvested from the sensors’ environment. An energy harvesting device can power the sensor either directly or in conjunction with a battery. Presented herein is a review of three types of energy harvesting with focus on devices at or below the cm3 scale. The harvesting technologies discussed are based on the conversion of temperature gradients, mechanical vibrations, and radiofrequency waves. Operation principles, current state of the art, and materials issues are presented. In addition, requirements and recent developments in power conditioning for such devices are discussed. Future challenges specific to miniaturization are outlined from both the materials and device perspectives.