Layer-by-layer design of nanostructured thermoelectrics: First-principles study of ZnO:organic superlattices fabricated by ALD/MLD

Karttunen Antti J.; Tynell Tommi; Karppinen Maarit

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Layer-by-layer design of nanostructured thermoelectrics: First-principles study of ZnO:organic superlattices fabricated by ALD/MLD

机译：纳米结构热电的逐层设计：ALD / MLD制备的ZnO：有机超晶格的第一性原理研究

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Crystalline atomic/molecular layer deposited ZnO:organic superlattices form a fundamentally new exciting family of coherent multilayered thermoelectric materials. They retain the n-type electrical transport properties derived from the parent ZnO lattice, while the organic molecular layers reduce the thermal conductivity. The controlled nanostructuring opens up the possibility of improving the thermoelectric characteristics of the parent oxide. Here we employ quantum chemical methods to rationalize our experimental results on the ZnO:organic superlattices and determine the thermoelectric structure-property relationships arising from the nanoscale layer-by-layer engineering of ZnO. Our results reveal the importance of systematic tailoring of the organic superlattice component and provide us with atomic-level guidelines for the rational design of novel hybrid inorganic-organic thermoelectrics. (C) 2016 Elsevier Ltd. All rights reserved.

机译：晶体原子/分子层沉积的ZnO：有机超晶格从根本上形成了令人兴奋的相干多层热电材料系列。它们保留了源自母体ZnO晶格的n型电传输性质，而有机分子层降低了热导率。受控的纳米结构开辟了改善母体氧化物的热电特性的可能性。在这里，我们采用量子化学方法来合理化我们在ZnO：有机超晶格上的实验结果，并确定ZnO纳米级逐层工程技术产生的热电结构与性质的关系。我们的研究结果揭示了有机超晶格组件进行系统剪裁的重要性，并为合理设计新型混合无机-有机热电器件提供了原子级指导。（C）2016 Elsevier Ltd.保留所有权利。

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《Nano Energy》 |2016年第null期|共11页
作者
Karttunen Antti J.; Tynell Tommi; Karppinen Maarit;
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正文语种 eng
中图分类能源与动力工程;
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Thermoelectrics; Nanocomposites; Hybrid materials; Inorganic-organic interfaces; Atomic Layer Deposition; Ab initio calculations;

机译：热电学;纳米复合材料;混合材料;无机-有机界面;原子层沉积;Ab从头算;

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1. Layer-by-layer design of nanostructured thermoelectrics: First-principles study of ZnO:organic superlattices fabricated by ALD/MLD [J] . Karttunen Antti J., Tynell Tommi, Karppinen Maarit Nano Energy . 2016,第Null期

机译：纳米结构热电的逐层设计：ALD / MLD制备的ZnO：有机超晶格的第一性原理研究
2. Organic-component dependent thermal conductivity reduction in ALD/MLD grown ZnO:organic superlattice thin films [J] . Ramin Ghiyasi, Milena Milich, John Tomko, Applied Physics Letters . 2021,第21期

机译：ALD / MLD中的有机组分依赖性导热率降低ZnO：有机超晶格薄膜
3. Organic-Component Dependent Crystal Orientation and Electrical Transport Properties in ALD/MLD Grown ZnO-Organic Superlattices [J] . Ghiyasi Ramin, Tewari Girish C., Karppinen Maarit The journal of physical chemistry, C. Nanomaterials and interfaces . 2020,第25期

机译：ALD / MLD种植ZnO-有机超晶格中的有机组分依赖性晶体取向和电气传输性能
4. Thermoelectric properties of inorganic/organic hybrid thin-film with various ZnO nanostructures embedded in PMMA [C] . Cheng-How Wang, Shih-Shou Lo, Der-Jun Jan International Conference on Nanotechnology . 2016

机译：嵌入PMMA中的具有多种ZnO纳米结构的无机/有机杂化薄膜的热电性能
5. A first-principles study of structural, electronic and optical properties of GaN, ZnO and (GaN)1--x(ZnO) x. [D] . Liu, Jian. 2015

机译：GaN，ZnO和（GaN）1-x（ZnO）x的结构，电子和光学性质的第一性原理研究。
6. Three- and Two-Photon NIR-to-Vis (YbEr) Upconversionfrom ALD/MLD-Fabricated Molecular Hybrid Thin Films [O] . Zivile Giedraityte, ⊥, Minnea Tuomisto, -1

机译：三光子和两光子NIR到可见光（YbEr）上转换ALD / MLD制造的分子杂化薄膜
7. Atomic-level structural and electronic properties of hybrid inorganic-organic ZnO:hydroquinone superlattices fabricated by ALD/MLD [O] . Karttunen, Antti J., Tynell, Tommi, Karppinen, Maarit 2015

机译：ALD / MLD制备的杂化无机-有机ZnO：对苯二酚超晶格的原子级结构和电子性质

Layer-by-layer design of nanostructured thermoelectrics: First-principles study of ZnO:organic superlattices fabricated by ALD/MLD

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