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Power Factor Characterization of Ge/SiGe Thermoelectric Superlattices at 300 K

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Abstract

To accurately characterize the efficiency of thermoelectric materials and characterize the maximum power that they can produce, a device using micro/nanofabrication techniques has been developed, enabling all three properties included in the figure of merit, ZT, of a thermoelectric material to be measured using a single device. The fabrication and testing of the device are presented. The electrical conductivity and Seebeck coefficient of Ge/SiGe heterostructures grown by low-energy plasma-enhanced chemical vapor deposition are used for demonstration. Experimental results as a function of quantum well width are presented, demonstrating power factors up to 6.02 ± 0.05 mW m−1 K−2 at 300 K. Modeling and physical characterization demonstrate that these results are presently limited by high threading dislocation density.

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Authors and Affiliations

  1. University of Glasgow, School of Engineering, Rankine Building, Oakfield Avenue, Glasgow, G12 8LT, UK

    A. Samarelli, L. Ferre Llin, Y. Zhang, J. M. R. Weaver, P. Dobson & D.J. Paul

  2. L-NESS, Politecnico di Milano, Como, Italy

    S. Cecchi, D. Chrastina & G. Isella

  3. Johannes Kepler Universitt, Linz, Austria

    T. Etzelstorfer & J. Stangl

  4. ETH Zurich, Zurich, Switzerland

    E. Müller Gubler

Authors
  1. A. Samarelli
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  2. L. Ferre Llin
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  3. Y. Zhang
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  4. J. M. R. Weaver
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  5. P. Dobson
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  6. S. Cecchi
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  7. D. Chrastina
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  8. G. Isella
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  9. T. Etzelstorfer
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  10. J. Stangl
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  11. E. Müller Gubler
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  12. D.J. Paul
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Corresponding author

Correspondence to A. Samarelli.

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Samarelli, A., Llin, L.F., Zhang, Y. et al. Power Factor Characterization of Ge/SiGe Thermoelectric Superlattices at 300 K. J. Electron. Mater. 42, 1449–1453 (2013). https://doi.org/10.1007/s11664-012-2287-z

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  • DOI: https://doi.org/10.1007/s11664-012-2287-z

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