Enhanced thermopower in ZnO two-dimensional electron gas

Author:

Shimizu Sunao,Bahramy Mohammad Saeed,Iizuka Takahiko,Ono Shimpei,Miwa Kazumoto,Tokura Yoshinori,Iwasa Yoshihiro

Abstract

Control of dimensionality has proven to be an effective way to manipulate the electronic properties of materials, thereby enabling exotic quantum phenomena, such as superconductivity, quantum Hall effects, and valleytronic effects. Another example is thermoelectricity, which has been theoretically proposed to be favorably controllable by reducing the dimensionality. Here, we verify this proposal by performing a systematic study on a gate-tuned 2D electron gas (2DEG) system formed at the surface of ZnO. Combining state-of-the-art electric-double-layer transistor experiments and realistic tight-binding calculations, we show that, for a wide range of carrier densities, the 2DEG channel comprises a single subband, and its effective thickness can be reduced to 1 nm at sufficiently high gate biases. We also demonstrate that the thermoelectric performance of the 2DEG region is significantly higher than that of bulk ZnO. Our approach opens up a route to exploit the peculiar behavior of 2DEG electronic states and realize thermoelectric devices with advanced functionalities.

Funder

Japan Society for the Promotion of Science

Publisher

Proceedings of the National Academy of Sciences

Subject

Multidisciplinary

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