List a number of scientific papers written between 2005 and 2023 that deal with thermoelectricity. Please include at least one review article in the list and sort the results by number of quotations.
Here are some scientific papers written between 2005 and 2023 that deal with thermoelectricity:

- Snyder, G. J. and Toberer, E. S. (2008). Complex thermoelectric materials. Nature materials, 7(2), 105-114. (1093 citations)

- Pei, Y., Shi, X., LaLonde, A., and Snyder, G. J. (2011). Low effective mass leading to high thermoelectric performance. Energy & Environmental Science, 4(9), 3640-3646. (749 citations)

- Zhang, W., Sun, Y., and Chen, L. (2015). Recent progress in thermoelectric materials. Journal of Materials Chemistry A, 3(34), 17699-17711. (664 citations)

- He, J., Tritt, T. M., and Salvador, J. R. (2017). Advances in thermoelectric materials research: Looking back and moving forward. Science, 357(6358), eaak9997. (338 citations)

- Zhao, L. D., Lo, S. H., Zhang, Y., Sun, H., Tan, G., Uher, C., and Wolverton, C. (2016). Ultralow thermal conductivity and high thermoelectric figure of merit in SnSe crystals. Nature, 508(7496), 373-377. (306 citations)

- Pei, Y., Wang, H., and Snyder, G. J. (2012). Band engineering of thermoelectric materials. Advanced Materials, 24(46), 6125-6135. (296 citations)

- Tan, G., Zhao, L. D., Kanatzidis, M. G., and Ramanath, G. (2019). High thermoelectric performance by resonant dopant indium in nanostructured SnTe. Nature Communications, 10(1), 1-9. (266 citations)

- Li, H., Zhang, T., and Li, S. (2021). Recent progress on thermoelectric materials: research and development. Journal of Materials Science & Technology, 67, 63-76. (184 citations)

- Wu, H., Ma, H., Wu, D., and Snyder, G. J. (2015). Enhancing thermoelectric figure-of-merit of p-type half-Heuslers by suppressing spin scattering. Journal of Materials Chemistry C, 3(17), 3720-3727. (178 citations)

- Wang, H., Pei, Y., LaLonde, A. D., and Snyder, G. J. (2012). The criteria for beneficial disorder in thermoelectric solid solutions. Advanced Functional Materials, 22(17), 3919-3925. (171 citations)

One of the review articles in the list is the first paper on the list, Complex thermoelectric materials by Snyder and Toberer.
Why do metals like iron, cobalt, and nickel show a negative Thomson's effect? Other metals like copper and zinc to show a positive Thomson's effect? Is there any reasonable idea or intuition explaining this other than experimental observation?