Dudi Ren scite author profile

Thermoelectric materials require an optimum carrier concentration to maximize electrical transport and thus thermoelectric performance. Element-doping and composition off-stoichiometry are the two general and effective approaches to optimize carrier concentrations, which have been successfully applied in almost all semiconductors. In this study, we propose a new strategy coined as bonding energy variation to tune the carrier concentrations in Cu2Se-based liquid-like thermoelectric compounds. By utilizing the different bond features in Cu2Se and Cu2S, alloying S at the Se-sites successfully increases the bonding energy to fix Cu atoms in the crystal lattice to suppress the formation of Cu vacancies, leading to much lowered carrier concentrations toward the optimum value. Combing the lowered electrical and lattice thermal conductivities, and the relatively good carrier mobility caused by the weak alloy scattering potential, ultrahigh zTs are achieved in slightly S doped Cu2Se with a maximum value of 2.0 at 1000 K, 30% higher than that in nominallystoichiometric Cu2Se.The table of contents entry: Beyond element-doping and composition off-stoichiometry, we propose a new strategy coined as bonding energy variation to tune the carrier concentrations in Cu2Se-based liquid-like thermoelectric compounds, leading to a maximum zT value of 2.0 at 1000 K, 30% higher than that in nominally-stoichiometric Cu2Se.

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Dudi Ren

High efficiency Bi₂Te₃-based materials and devices for thermoelectric power generation between 100 and 300 °C

Flexible thermoelectrics: from silver chalcogenides to full-inorganic devices

Enhanced Thermoelectric Performance through Tuning Bonding Energy in Cu₂Se_1–xS_x Liquid-like Materials

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Dudi Ren

High efficiency Bi2Te3-based materials and devices for thermoelectric power generation between 100 and 300 °C

Flexible thermoelectrics: from silver chalcogenides to full-inorganic devices

Enhanced Thermoelectric Performance through Tuning Bonding Energy in Cu2Se1–xSx Liquid-like Materials

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High efficiency Bi₂Te₃-based materials and devices for thermoelectric power generation between 100 and 300 °C

Enhanced Thermoelectric Performance through Tuning Bonding Energy in Cu₂Se_1–xS_x Liquid-like Materials