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Paper detail

Metamaterial Thermoelectric Conversion

We propose a thermoelectric device that can produce a thermal gradient even in a uniform-temperature environment. We introduced a metamaterial absorber (MA), which comprised a transparent calcium fluoride layer sandwiched between a silver mirror layer and silver microdisk arrays, at one end of a thermoelectric device made of bismuth antimony telluride. The heating efficiencies of the MA and opposite electrodes of the device were unbalanced; consequently, the Seebeck effect was induced, resulting in electricity generation. We fabricated the MA on a copper electrode loaded on a thermoelectric device, and the device was placed in a uniform-temperature environment at 364 K. The thermal gradient across the device was experimentally measured and was found to be 0.14 K.

preprint2022arXivOpen access
Takuya AsakuraToshinari OdakaRyosuke NakayamaSohei SaitoShohei KatsumataTakuo TanakaWakana Kubo
physics.app-phphysics.optics
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Takuya AsakuraToshinari OdakaRyosuke NakayamaSohei SaitoShohei KatsumataTakuo TanakaWakana Kubo

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