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.
@article{arxiv.2204.13235,
title = {Metamaterial Thermoelectric Conversion},
author = {Takuya Asakura and Toshinari Odaka and Ryosuke Nakayama and Sohei Saito and Shohei Katsumata and Takuo Tanaka and Wakana Kubo},
journal= {arXiv preprint arXiv:2204.13235},
year = {2022}
}