Add to ORKGImproving the thermoelectric performance of PbSe over its previously reported maximum zT can be achieved by engineering its electronic band structure. We demonstrate here, using optical absorption spectra, first principles calculations, and temperature dependent transport measurements, that alloying PbSe with SrSe leads to a dramatic change of the band structure that increases the thermoelectric figure of merit, zT. The temperature where the two valence bands converge decreases with Sr addition. The zT value, when the carrier density is optimized, increases with Sr addition in Pb_(1−x)Sr_xSe and when x = 0.08 a maximum zT of 1.5 at 900 K is achieved. The net benefit in zT comes from the band structure tuning even though in other thermoelect...
Recently a significant improvement in the thermoelectric performance of p-type ternary PbTe–PbSe and...
Realizing high thermoelectric performance requires high electrical transport properties and low ther...
This thesis describes a series of experimental studies of lead chalcogenide thermoelectric semicondu...
The n-type alloys between PbSe and PbS are studied. The effect of alloy composition on transport pro...
We present an effective approach to favorably modify the electronic structure of PbSe using Ag dopin...
We show an example of hierarchically designing electronic bands of PbSe toward excellent thermoelect...
Lead chalcogenide thermoelectric systems have been shown to reach record high figure of merit values...
Lead telluride and its alloys have been extensively studied for medium temperature thermoelectric ap...
Recently, the quaternary system PbTe−PbSe−PbS has been shown to provide high thermoelectric efficie...
The efficiency of thermoelectric energy converters is limited by the material thermoelectric figure ...
Ti, V, Cr, Nb, and Mo are found to be effective at increasing the Seebeck coefficient and power fact...
The efficiency of thermoelectric energy converters is limited by the material thermoelectric figure ...
Thermoelectric generators can convert heat directly into usable electric power but suffer from low e...
By adding aluminium (Al) into lead selenide (PbSe), we successfully prepared n-type PbSe thermoelect...
PbSe is a surprisingly good thermoelectric material due, in part, to its low thermal conductivity th...
Recently a significant improvement in the thermoelectric performance of p-type ternary PbTe–PbSe and...
Realizing high thermoelectric performance requires high electrical transport properties and low ther...
This thesis describes a series of experimental studies of lead chalcogenide thermoelectric semicondu...
The n-type alloys between PbSe and PbS are studied. The effect of alloy composition on transport pro...
We present an effective approach to favorably modify the electronic structure of PbSe using Ag dopin...
We show an example of hierarchically designing electronic bands of PbSe toward excellent thermoelect...
Lead chalcogenide thermoelectric systems have been shown to reach record high figure of merit values...
Lead telluride and its alloys have been extensively studied for medium temperature thermoelectric ap...
Recently, the quaternary system PbTe−PbSe−PbS has been shown to provide high thermoelectric efficie...
The efficiency of thermoelectric energy converters is limited by the material thermoelectric figure ...
Ti, V, Cr, Nb, and Mo are found to be effective at increasing the Seebeck coefficient and power fact...
The efficiency of thermoelectric energy converters is limited by the material thermoelectric figure ...
Thermoelectric generators can convert heat directly into usable electric power but suffer from low e...
By adding aluminium (Al) into lead selenide (PbSe), we successfully prepared n-type PbSe thermoelect...
PbSe is a surprisingly good thermoelectric material due, in part, to its low thermal conductivity th...
Recently a significant improvement in the thermoelectric performance of p-type ternary PbTe–PbSe and...
Realizing high thermoelectric performance requires high electrical transport properties and low ther...
This thesis describes a series of experimental studies of lead chalcogenide thermoelectric semicondu...