通过在溶液合成的纳米结构 Bi S I 中重构二元金属硫化物来调控能带结构，以实现高性能的热电性能。

Manipulating Band Structure through Reconstruction of Binary Metal Sulfide for High-Performance Thermoelectrics in Solution-Synthesized Nanostructured Bi S I.

机构信息

Department of Chemical and Biological Engineering, Iowa State University, Ames, IA, 50011, USA.

College of Chemical Engineering, Nanjing University of Science and Technology, Nanjing, Jiangsu, 210094, China.

出版信息

Angew Chem Int Ed Engl. 2018 Feb 23;57(9):2413-2418. doi: 10.1002/anie.201713223. Epub 2018 Feb 5.

DOI:10.1002/anie.201713223

PMID:29356282

Abstract

Reconstructing canonical binary compounds by inserting a third agent can significantly modify their electronic and phonon structures. Therefore, it has inspired the semiconductor communities in various fields. Introducing this paradigm will potentially revolutionize thermoelectrics as well. Using a solution synthesis, Bi S was rebuilt by adding disordered Bi and weakly bonded I. These new structural motifs and the altered crystal symmetry induce prominent changes in electrical and thermal transport, resulting in a great enhancement of the figure of merit. The as-obtained nanostructured Bi S I is the first non-toxic, cost-efficient, and solution-processable n-type material with z T=1.0.

摘要

通过插入第三种试剂来重构典型的二元化合物可以显著改变它们的电子和声子结构。因此，它激发了各个领域半导体领域的研究兴趣。引入这种范例也有可能彻底改变热电领域。通过溶液合成，通过添加无序的 Bi 和弱结合的 I 对 Bi S 进行了重构。这些新的结构特征和改变的晶体对称性导致了电输运和热输运的显著变化，从而极大地提高了品质因数。所获得的纳米结构 Bi S I 是第一个无毒、经济高效且可溶液处理的 n 型材料，其 zT 值为 1.0。

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通过在溶液合成的纳米结构 Bi S I 中重构二元金属硫化物来调控能带结构，以实现高性能的热电性能。

Manipulating Band Structure through Reconstruction of Binary Metal Sulfide for High-Performance Thermoelectrics in Solution-Synthesized Nanostructured Bi S I.

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