Title :
Two dimensional quantum net of heavily doped porous silicon
Author :
Yamamoto, A. ; Takimoto, M. ; Ohta, T. ; Whitlow, L. ; Miki, K. ; Sakamoto, K. ; Kamisako, K.
Author_Institution :
Electrotech. Lab., Japan
Abstract :
We produced and measured the thermoelectric(TE) properties of heavily doped p-type porous silicon(PS). Narrow 10 nm holes were formed through the anodic reaction of a p-type silicon wafer in hydrofluoric acid (HF) solution. We measured room temperature TE transport properties such as conductivity, Seebeck coefficient, thermal conductivity and thermal diffusivity perpendicular to the growth direction of nano-holes. Compared to initial silicon substrate we found that porous silicon has seven times lower electrical conductivity, three times larger Seebeck coefficient and four times lower thermal conductivity. The calculated figure-of-merit for porous silicon sample was about 3.5×10-4 K-1 which was five times larger than that of silicon
Keywords :
Seebeck effect; electrical conductivity; elemental semiconductors; heavily doped semiconductors; porous semiconductors; semiconductor quantum dots; silicon; thermal conductivity; thermal diffusivity; 10 nm; 2D quantum net; Seebeck coefficient; Si; anodic reaction; electrical conductivity; figure-of-merit; heavily doped porous Si; hydrofluoric acid solution; nano-holes; p-Si wafer substrate; room temperature transport properties; thermal conductivity; thermal diffusivity; thermoelectric properties; Calorimetry; Conductivity measurement; Contacts; Density measurement; Material properties; Reactive power; Silicon; Silver; Thermal conductivity; Thermal resistance;
Conference_Titel :
Thermoelectrics, 1998. Proceedings ICT 98. XVII International Conference on
Conference_Location :
Nagoya
Print_ISBN :
0-7803-4907-5
DOI :
10.1109/ICT.1998.740351
