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用于先进光子学的有机核/壳微线的分层集成

Hierarchical Integration of Organic Core/Shell Microwires for Advanced Photonics.

作者信息

Lin Hong-Tao, Ma Ying-Xin, Chen Song, Wang Xue-Dong

机构信息

School of Chemistry and Chemical Engineering, Shandong University of Technology, Zibo, Shandong 255000, P. R. China.

Institute of Functional Nano & Soft Materials (FUNSOM), Jiangsu Key Laboratory for Carbon-Based Functional Materials & Devices, Soochow University, Suzhou, Jiangsu 215123, China.

出版信息

Angew Chem Int Ed Engl. 2023 Jan 9;62(2):e202214214. doi: 10.1002/anie.202214214. Epub 2022 Dec 2.

Abstract

The combination of multiple components or structures into integrated micro/nanostructures for practical application has been pursued for many years. Herein, a series of hierarchical organic microwires with branch, core/shell (C/S), and branch C/S structures are successfully constructed based on organic charge transfer (CT) cocrystals with structural similarity and physicochemical tunability. By regulating the intermolecular CT interaction, single microwires and branch microstructures can be integrated into the C/S and branch C/S structures, respectively. Significantly, the integrated branch C/S microwires, with multicolor waveguide behavior and branch structure multichannel waveguide output characteristics, can function as an optical logic gate with multiple encoding features. This work provides useful insights for creating completely new types of organic microstructures for integrated optoelectronics.

摘要

多年来,人们一直在追求将多个组件或结构组合成集成的微/纳米结构以用于实际应用。在此,基于具有结构相似性和物理化学可调性的有机电荷转移(CT)共晶体,成功构建了一系列具有分支、核/壳(C/S)和分支C/S结构的分级有机微线。通过调节分子间CT相互作用,单微线和分支微结构可分别集成到C/S和分支C/S结构中。值得注意的是,具有多色波导行为和分支结构多通道波导输出特性的集成分支C/S微线可作为具有多种编码特征的光学逻辑门。这项工作为创建用于集成光电子学的全新类型有机微结构提供了有用的见解。

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