Add to ORKGThermoelectric materials require an optimal carrier concentration to maximize electrical transport and thus thermoelectric performance. Element doping and composition off-stoichiometry are the two general and effective approaches for optimizing carrier concentrations, which have been successfully applied in almost all semiconductors. In this study, we propose a new strategy called 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 greatly reduced carrier concent...
Sulphur doping effects on the crystal structures, thermoelectric properties, density-of-states, and ...
Cu2Se thin films provide a promising route toward relatively safe, sustainable and solution processe...
Copper chalcogenides are outstanding thermoelectric materials for applications in the medium-high te...
Advanced thermoelectric technology offers a potential for converting waste industrial heat into usef...
Due to the nature of their liquid-like behavior and high dimensionless figure of merit, Cu X (X = Te...
In the last decade, high-performance CuSe thermoelectric materials and devices are attracting increa...
Due to the nature of their liquid-like behavior and high dimensionless figure of merit, Cu2X (X = Te...
Binary Cu2Se and Cu2Te have gained great attention recently because of their interesting and abnorma...
In addition to eco friendliness and low raw material cost, Cu2S0.5Se0.5 exhibits promising middle to...
The superionic conductor Cu_(2−δ)Se has been shown to be a promising thermoelectric at higher temper...
Diamond-like compounds represent a large family of new high-performance thermoelectric (TE) material...
Abstract As a group of emerging liquid‐like thermoelectric materials for waste heat recovery into us...
Copper selenide (Cu2Se) has been extensively studied as an eco-friendly thermoelectric candidate owi...
Copper selenide (Cu2Se) has been extensively studied as an eco-friendly thermoelectric candidate owi...
The superionic conductor Cu2-delta Se has been shown to be a promising thermoelectric at higher temp...
Sulphur doping effects on the crystal structures, thermoelectric properties, density-of-states, and ...
Cu2Se thin films provide a promising route toward relatively safe, sustainable and solution processe...
Copper chalcogenides are outstanding thermoelectric materials for applications in the medium-high te...
Advanced thermoelectric technology offers a potential for converting waste industrial heat into usef...
Due to the nature of their liquid-like behavior and high dimensionless figure of merit, Cu X (X = Te...
In the last decade, high-performance CuSe thermoelectric materials and devices are attracting increa...
Due to the nature of their liquid-like behavior and high dimensionless figure of merit, Cu2X (X = Te...
Binary Cu2Se and Cu2Te have gained great attention recently because of their interesting and abnorma...
In addition to eco friendliness and low raw material cost, Cu2S0.5Se0.5 exhibits promising middle to...
The superionic conductor Cu_(2−δ)Se has been shown to be a promising thermoelectric at higher temper...
Diamond-like compounds represent a large family of new high-performance thermoelectric (TE) material...
Abstract As a group of emerging liquid‐like thermoelectric materials for waste heat recovery into us...
Copper selenide (Cu2Se) has been extensively studied as an eco-friendly thermoelectric candidate owi...
Copper selenide (Cu2Se) has been extensively studied as an eco-friendly thermoelectric candidate owi...
The superionic conductor Cu2-delta Se has been shown to be a promising thermoelectric at higher temp...
Sulphur doping effects on the crystal structures, thermoelectric properties, density-of-states, and ...
Cu2Se thin films provide a promising route toward relatively safe, sustainable and solution processe...
Copper chalcogenides are outstanding thermoelectric materials for applications in the medium-high te...