基于定制解决方案的 N-杂三角烯薄膜：揭示自组装过程

Tailored Solution-Based N-heterotriangulene Thin Films: Unravelling the Self-Assembly.

作者信息

Hawly Tim, Streller Fabian, Johnson Manuel, Miguez-Lago Sandra, Hammer Natalie, Hampel Frank, Vivod Dustin, Zahn Dirk, Kivala Milan, Branscheid Robert, Spiecker Erdmann, Fink Rainer H

机构信息

Friedrich-Alexander-Universität Erlangen-Nürnberg, Chair of Physical Chemistry II, Egerlandstraße 3, 91058, Erlangen, Germany.

Friedrich-Alexander-Universität Erlangen-Nürnberg, Chair of Organic Chemistry I, Nikolaus-Fiebiger-Str. 10, 91052, Erlangen, Germany.

出版信息

Chemphyschem. 2021 Jun 4;22(11):1079-1087. doi: 10.1002/cphc.202100164. Epub 2021 May 5.

DOI:10.1002/cphc.202100164

PMID:33792107

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8251884/

Abstract

The ability of a series of bridged triarylamines, so-called N-heterotriangulenes, to form multilayer-type 2D-extended films via a solution-based processing method was examined using complementary microscopic techniques. We found that the long-range order, crystallinity, and layer thickness decisively depend on the nature of the substituents attached to the polycyclic backbone. Owing to their flat core unit, compounds exhibiting a carbonyl unit at the bridge position provide a superior building block as compared to thioketone-bridged derivatives. In addition, nature and length of the peripheral substituents affect the orientation of the aromatic core unit within highly crystalline films. Hence, our results stress the significance of a suitable molecular framework and provide deeper understanding of structure formation in 2D-confined surroundings for such compounds.

摘要

利用互补显微镜技术研究了一系列桥连三芳基胺（即所谓的N-杂三角烯）通过基于溶液的加工方法形成多层型二维扩展膜的能力。我们发现，长程有序性、结晶度和层厚度决定性地取决于连接到多环主链上的取代基的性质。由于其扁平的核心单元，与硫酮桥连衍生物相比，在桥位置具有羰基单元的化合物提供了更优异的构建块。此外，外围取代基的性质和长度会影响高度结晶薄膜中芳香族核心单元的取向。因此，我们的结果强调了合适分子框架的重要性，并为这类化合物在二维受限环境中的结构形成提供了更深入的理解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f22d/8251884/17e30b54ca6b/CPHC-22-1079-g003.jpg

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基于定制解决方案的 N-杂三角烯薄膜：揭示自组装过程

Tailored Solution-Based N-heterotriangulene Thin Films: Unravelling the Self-Assembly.

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