Title :
Thermoelectric power factor for electrically conductive polymers
Author :
Shakouri, Ali ; Li, Suquan
Author_Institution :
Sch. of Eng., California Univ., Santa Cruz, CA, USA
fDate :
Aug. 29 1999-Sept. 2 1999
Abstract :
In conventional semiconductors, increasing the doping will reduce the Seebeck coefficient, and there is an optimum doping concentration for thermoelectric cooling or power generation applications. An overview of the experimental results for the power factor (electrical conductivity times the square of Seebeck coefficient) for various electrically conductive polymers is presented. Even though the Seebeck coefficient decreases with doping, the power factor keeps increasing. Various mechanisms of electron transport in polymers are described and the doping dependence of the power factor is analyzed.
Keywords :
Seebeck effect; conducting polymers; thermoelectric power; Seebeck coefficient; electrical conductivity; electrically conductive polymers; optimum doping concentration; power factor; power generation; thermoelectric cooling; thermoelectric power factor; Bonding; Conducting materials; Conductivity; Electrons; Lattices; Polymers; Power generation; Reactive power; Semiconductor device doping; Thermoelectricity;
Conference_Titel :
Thermoelectrics, 1999. Eighteenth International Conference on
Conference_Location :
Baltimore, MD, USA
Print_ISBN :
0-7803-5451-6
DOI :
10.1109/ICT.1999.843415
