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Defect engineering in thermoelectric materials: what have we learned?
Thermoelectric energy conversion is an all solid-state technology that relies on exceptional
semiconductor materials that are generally optimized through sophisticated strategies …
semiconductor materials that are generally optimized through sophisticated strategies …
Lattice dynamics and thermoelectric properties of diamondoid materials
H ** with Ag/Na and Nanostructuring With Ag8SnSe6
Single crystalline SnSe is one of the most intriguing new thermoelectric materials but the
thermoelectric performance of polycrystalline SnSe seems to lag significantly compared to …
thermoelectric performance of polycrystalline SnSe seems to lag significantly compared to …
Design of domain structure and realization of ultralow thermal conductivity for record‐high thermoelectric performance in chalcopyrite
Chalcopyrite compound CuGaTe2 is the focus of much research interest due to its high
power factor. However, its high intrinsic lattice thermal conductivity seriously impedes the …
power factor. However, its high intrinsic lattice thermal conductivity seriously impedes the …
High Thermoelectric Performance in the Wide Band‐Gap AgGa1‐xTe2 Compounds: Directional Negative Thermal Expansion and Intrinsically Low Thermal …
A deficiency of Ga in wide band‐gap AgGa1‐xTe2 semiconductors (1.2 eV) can be used to
optimize the electrical transport properties and reduce the thermal conductivity to achieve …
optimize the electrical transport properties and reduce the thermal conductivity to achieve …
Achieving High Thermoelectric Performance in ZnSe-Doped CuGaTe2 by Optimizing the Carrier Concentration and Reducing Thermal Conductivity
S Luo, Z Zhang, L Yu, S Wei, Z Ji, J Liang… - … Applied Materials & …, 2024 - ACS Publications
The CuGaTe2 thermoelectric material has garnered widespread attention as an inexpensive
and nontoxic material for mid-temperature thermoelectric applications. However, its …
and nontoxic material for mid-temperature thermoelectric applications. However, its …
Quasi-random distribution of distorted nanostructures enhances thermoelectric performance of high-entropy chalcopyrite
Here, we suggest that the quasi-random distribution of distorted nanostructures (QDDN),
which is unique in high-entropy materials, is the reason for superior thermoelectric …
which is unique in high-entropy materials, is the reason for superior thermoelectric …