Shi Xin, Song Shaowei, Gao Guanhui, Ren Zhifeng
Department of Physics and Texas Center for Superconductivity at the University of Houston (TcSUH), University of Houston, Houston, TX 77204, USA.
Department of Materials Science and NanoEngineering, Rice University, Houston, TX 77005, USA.
Science. 2024 May 17;384(6697):757-762. doi: 10.1126/science.adn7265. Epub 2024 May 16.
Electronic band convergence can have a beneficial impact on thermoelectric performance, but finding the right band-converged compositions is still time-consuming. We propose a method for designing a series of compositions with simultaneous band convergence in the high-entropy YbCaMgZnSb material by zeroing the weighted sum of crystal-field splitting energies of the parent compounds. We found that so-designed compositions have both larger power factors and lower thermal conductivities and that one of these compositions exhibits a large thermoelectric figure of merit value in comparison with to other p-type Zintls. Our material shows high stability both thermally and temporally. We then assembled an all-Zintl single-stage module, nontoxic and free of tellurium, that demonstrates an exceptional heat-to-electricity conversion efficiency exceeding 10% at a temperature difference of 475 kelvin.
电子能带收敛对热电性能有有益影响,但找到合适的能带收敛成分仍然很耗时。我们提出了一种方法,通过将母体化合物的晶体场分裂能的加权和归零,来设计一系列在高熵YbCaMgZnSb材料中同时具有能带收敛的成分。我们发现,如此设计的成分既具有更大的功率因子又具有更低的热导率,并且与其他p型津特耳化合物相比,这些成分之一表现出较大的热电优值。我们的材料在热稳定性和时间稳定性方面都很高。然后,我们组装了一个全津特耳单级模块,无毒且不含碲,在475开尔文的温差下,该模块展现出超过10%的卓越热电转换效率。
