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    • Ion–Electron Coupling Enables Ionic Thermoelectric Material with New Operation Mode and High Energy Density
    Authors: Yongjie, He; Shaowei, Li; Rui, Chen;  Advisor: -;  Co-Author: - (2023)

    Ionic thermoelectrics (i-TE) possesses great potential in powering distributed electronics because it can generate thermopower up to tens of millivolts per Kelvin. However, as ions cannot enter external circuit, the utilization of i-TE is currently based on capacitive charge/discharge, which results in discontinuous working mode and low energy density. Here, we introduce an ion–electron thermoelectric synergistic (IETS) effect by utilizing an ion–electron conductor. Electrons/holes can drift under the electric field generated by thermodiffusion of ions, thus converting the ionic current into electrical current that can pass through the external circuit.