Add to ORKGPolycrystalline Sn1-xCuxSe samples have been prepared using hot pressing to study the Cu doping effect on carrier concentration in SnSe. Different from Ag, Cu doping decreases the carrier concentration of SnSe at room temperature. The carrier concentration of Cu doped samples increases obviously with temperature, becomes larger than the pristine sample above 523K, and approaches the values of Na doped SnSe at 773K. The enhanced carrier concentration leads to better electrical conductivity, resulting in higher power factors at high temperatures. Due to carrier optimization by Cu, a peak ZT of 0.66 is achieved in Sn0.98Cu0.02Se at 813K
International audienceWe report the evaluation of the thermoelectric performance of polycrystalline ...
Thermoelectric power generation technology has emerged as a clean “heat engine” that can convert hea...
SnSe, a wide-bandgap semiconductor, has attracted significant attention from the thermoelectric (TE)...
In this study, we, for the first time, report a high Cu solubility of 11.8% in single crystal SnSe m...
Tin selenide (SnSe) based thermoelectric materials are being explored for making inexpensive and eff...
A series of PbBr2-doped polycrystalline SnSe samples were synthesized by melting and hot pressing. B...
LaCl3 doped polycrystalline SnSe was synthesized by combining mechanical alloying (MA) process with ...
Cu2+xSnSe3 (0 <= x <= 0.08) compounds were synthesized by conventional solid-state reaction followed...
Single crystalline SnSe is one of the most intriguing new thermoelectric materials but the thermoele...
The effect of Sb doping on the thermoelectric properties of Cu2SnSe3 was investigated. The Cu2Sn1-xS...
In this study, we report a record peak Figure of Merit (ZT) of 1.36 ± 0.12 in polycrystalline SnSe m...
Thermoelectric materials require an optimal carrier concentration to maximize electrical transport a...
Sulphur doping effects on the crystal structures, thermoelectric properties, density-of-states, and ...
SnSe emerges as a new class of thermoelectric materials since the recent discovery of an ultrahigh t...
Many IV–VI semiconductors tend to be good thermoelectric materials, these include all Pb chalcogenid...
International audienceWe report the evaluation of the thermoelectric performance of polycrystalline ...
Thermoelectric power generation technology has emerged as a clean “heat engine” that can convert hea...
SnSe, a wide-bandgap semiconductor, has attracted significant attention from the thermoelectric (TE)...
In this study, we, for the first time, report a high Cu solubility of 11.8% in single crystal SnSe m...
Tin selenide (SnSe) based thermoelectric materials are being explored for making inexpensive and eff...
A series of PbBr2-doped polycrystalline SnSe samples were synthesized by melting and hot pressing. B...
LaCl3 doped polycrystalline SnSe was synthesized by combining mechanical alloying (MA) process with ...
Cu2+xSnSe3 (0 <= x <= 0.08) compounds were synthesized by conventional solid-state reaction followed...
Single crystalline SnSe is one of the most intriguing new thermoelectric materials but the thermoele...
The effect of Sb doping on the thermoelectric properties of Cu2SnSe3 was investigated. The Cu2Sn1-xS...
In this study, we report a record peak Figure of Merit (ZT) of 1.36 ± 0.12 in polycrystalline SnSe m...
Thermoelectric materials require an optimal carrier concentration to maximize electrical transport a...
Sulphur doping effects on the crystal structures, thermoelectric properties, density-of-states, and ...
SnSe emerges as a new class of thermoelectric materials since the recent discovery of an ultrahigh t...
Many IV–VI semiconductors tend to be good thermoelectric materials, these include all Pb chalcogenid...
International audienceWe report the evaluation of the thermoelectric performance of polycrystalline ...
Thermoelectric power generation technology has emerged as a clean “heat engine” that can convert hea...
SnSe, a wide-bandgap semiconductor, has attracted significant attention from the thermoelectric (TE)...