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▲ [12p-A407-3] Improved thermoelectric performance of p-type Si-Ge alloy
Keywords:Si-Ge, ball milling, thermoelectric property
In order to improve the figure of merit ZT, many strategies have been reported. For example, nano-structuring and modulation doping approach has been utilized to improve the thermoelectric properties of Si-Ge alloy by decreasing thermal conductivity without degrading the power factor.
Our previous studies revealed that B-doped Si-Ge-Au thin film and bulk sample possessed ZT value of 1.38 and 1.63 at 1000K. We found that the electron transport properties were constructively improved using Au-doping to form an impurity level near the valence band top, and B-doping to control the Fermi level. Very small thermal conductivity ~ 1.5 Wm-1K-1 was obtained due to nanograins. However, Au is an expensive element and more than ZT = 1.63 is required for improving efficiency. In the present study, we synthesized bulk noncrystalline B-doped Si-Ge alloy with other metal substitution, which is a cheap and non-toxic element. Thermoelectric properties of bulk nanocrystalline samples were investigated as a function of temperature 300 – 1000 K, respectively.
Our previous studies revealed that B-doped Si-Ge-Au thin film and bulk sample possessed ZT value of 1.38 and 1.63 at 1000K. We found that the electron transport properties were constructively improved using Au-doping to form an impurity level near the valence band top, and B-doping to control the Fermi level. Very small thermal conductivity ~ 1.5 Wm-1K-1 was obtained due to nanograins. However, Au is an expensive element and more than ZT = 1.63 is required for improving efficiency. In the present study, we synthesized bulk noncrystalline B-doped Si-Ge alloy with other metal substitution, which is a cheap and non-toxic element. Thermoelectric properties of bulk nanocrystalline samples were investigated as a function of temperature 300 – 1000 K, respectively.