Abstract
The thermophotovoltaic cells which convert the low temperature (below 500 K) infrared radiation into electricity are of significance due to their potential applications in many fields. In this work, narrow bandgap Bi2Te3/Sb2Te3 thin film thermophotovoltaic cells were fabricated, and the formation mechanism of Bi2Te3/Sb2Te3 p-n heterojunctions was investigated. At room temperature, the heterojunctions are formed through the diffusion of electrons and holes along the same direction from n-type Bi2Te3 thin films to p-type Sb2Te3 thin films rather than conventional bi-directional diffusion. Because the strong intrinsic excitation generates a large number of intrinsic carriers which weaken the built-in electric field of the heterojunctions, their I-V curves become similar to straight lines. It is also demonstrated that Bi2Te3/Sb2Te3 thermophotovoltaic cells can output electrical power under the infrared radiation from a low temperature heat source. Although the open-circuit voltage and the short-circuit current of the cells are low, this work provides a possible way to utilize the low temperature radiation.
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