Abstract
Spin-momentum-mediated heat–charge conversion technologies for developing thin thermoelectric generators and heat flow sensors have been extensively studied. The thermoelectric generation (TEG) based on the spin Seebeck (SSE) effect is a promising technology. In this study, a flexible SSE thermopile device is fabricated using inkjet printing with Fe3O4 and Ag nanoparticle (NP) ink. A square Fe3O4 NP and a wire-shaped Ag NP layer are used as the first and second layers, respectively. These layers are overlaid using inkjet printing twice. To obtain the SSE voltage (VSSE), a thin Pt film is deposited on a printed thermopile device. SSE generators consisting of a Pt thin film/Fe3O4 NP layer are connected through a Ag NP wire to form a thermopile structure. The saturated VSSE of the SSE thermopile device increases with the number of SSE generators. In addition, the SSE-TEG of an SSE thermopile device is observed using a heat source with a curved surface. In these results, it is indicated that the inkjet-printing fabrication method holds great potential in both the SSE thermopile devices and the flexible spintronic devices because it is a simple and fast process that does not require lithography.
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Kurokawa, Y., Yamada, K., & Yuasa, H. (2024). Inkjet-Printed Flexible Spin Seebeck Thermopile Device for Low-Cost Spintronics Device Fabrication. Advanced Engineering Materials, 26(2). https://doi.org/10.1002/adem.202301069
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