Title :
Optimization of Superlattice Thermoelectric Materials and Microcoolers
Author :
Zhang, Yanliang ; Chen, Yunfei ; Gong, Changmeng ; Yang, Juekuan ; Qian, Ruiming ; Wang, Yujuan
Author_Institution :
Southeast Univ., Nanjing
Abstract :
The performance of thermoelectric (TE) coolers is determined by the figure of merit of the TE materials ZT. In order to obtain the optimal performance of a superlattice microcooler, both the superlattice structure and the device were optimized in the design and the fabrication process. The thermal conductivities of InGaAs/InGaAsP superlattices with different periodic lengths were measured with the 3omega method. The result indicates that the superlattice at a certain periodic length has minimal thermal conductivity, which, in general, corresponds to an enhanced ZT. A 1D model was utilized to investigate the significant parameters in microcoolers. Based on the modeling results, a set of superlattice microcoolers were fabricated. The maximum cooling temperature that was reached is 0.76degC for the optimized cooler at room temperature.
Keywords :
III-V semiconductors; cooling; gallium arsenide; indium compounds; semiconductor superlattices; thermal conductivity measurement; thermoelectric devices; InGaAs-InGaAsP - Interface; microcoolers; phonons; superlattice microcooler; superlattice structure; superlattice thermoelectric materials; thermal conductivity; thermoelectric coolers; thermoelectric devices; Conducting materials; Design optimization; Fabrication; Indium gallium arsenide; Superlattices; Tellurium; Temperature; Thermal conductivity; Thermoelectric devices; Thermoelectricity; Optimization methods; phonons; superlattice; thermoelectric (TE) devices;
Journal_Title :
Microelectromechanical Systems, Journal of
DOI :
10.1109/JMEMS.2007.900884
