References

[1] G. J. Snyder, E. S. Toberer. “Complex thermoelectric materials” Nature Materials 7, p 105 - 114 (2008)

[2] Y. Z. Pei, G. J. Snyder, et al. "Convergence of Electronic Bands for High Performance Bulk Thermoelectrics"Nature 473, p 66 (2011); Advanced Materials 23, 5674 (2011)

[3] H. Liu, X. Shi, G. J. Snyder, et al. “Liquid-like Copper Ion Thermoelectric Materials” Nature Materials, 11, 422 (2012); APL Materials, 1, 052107 (2013)

[4] G. J. Snyder, et al., "Disordered Zinc in Zn4Sb3 with Phonon Glass, Electron Crystal Thermoelectric Properties" Nature Materials, Vol 3, p. 458 (2004); J. Mater. Chem., 20, 9877 (2010)

[5] E. S. Toberer. A. F. May, G. J. Snyder, “Zintl Chemistry for Designing High Efficiency Thermoelectric Materials” Chemistry of Materials 22, p 624 (2010)

[6] S. I. Kim, H. S. Kim, G. J. Snyder, S. W. Kim et al. “Dense dislocation arrays embedded in grain boundaries for high-performance bulk thermoelectrics” Science, 348, 6230 (2015)

[7] Nicholas A. Heinz, T. Ikeda, Y. Pei and G. J. Snyder "Applying quantitative microstructure control in advanced functional composites" Advanced Functional Materials 24, 2135 (2014)