具有大光学非线性的二维卟啉聚合物薄膜的界面合成

Fengxiang Zhao, Geping Zhang, Wei Xie, Xin Kong, Xiaomeng Duan, Yubin Fu, Jichao Zhang, Guoquan Gao, Tong Zhu, Jingcheng Hao, Hongguang Li, Renhao Dong
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引用次数: 0

摘要

二维聚合物(2DP)及其层叠二维共价有机框架近来已成为非线性光学(NLO)材料,有望应用于光学领域。然而,设计具有大非线性吸收系数(β)的三阶 NLO 2DP 薄膜的化学方法仍是一个谜。本文报告了三种高度结晶的卟啉集成二维多亚胺(命名为 2DPI-Zn-Azo、2DPI-2H-Azo 和 2DPI-Zn),它们是均匀的薄膜,具有超过 cm2 的大横向面积、均匀的透明度和数十纳米的厚度。特别是由卟啉锌和 -NN- 组成的 2DPI-Zn-Azo 薄膜在 532 纳米波长下显示出较大的饱和吸收,其 β 值(-1.88 × 105 cm GW-1)是三种二维聚酰亚胺中最高的,也比光活性小分子、卟啉集成 2DPs 和无机二维材料的性能高出 2-5 个数量级。对照实验结合理论计算发现,金属中心和 -NN- 的嵌入使得 2DPI-Zn-Azo 中的π电子高度局域化,带隙变窄,这使得光激发电荷分离后的光生电子能够快速转移,从而提高了 NLO 性能。这项工作为构建高效的三阶 NLO 薄膜材料开辟了一条新途径,推动了光学和光电子学领域 2DPs 的发展。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Interfacial Synthesis of Two-Dimensional Porphyrin Polymer Films with Large Optical Nonlinearity

Interfacial Synthesis of Two-Dimensional Porphyrin Polymer Films with Large Optical Nonlinearity
Two-dimensional polymers (2DPs) and their layer-stacked 2D covalent organic frameworks have recently emerged as nonlinear optical (NLO) materials for potential applications in optics. However, the chemistry for designing third-order NLO 2DP films with large nonlinear absorption coefficient (β) has remained a mystery. Herein, three highly crystalline porphyrin-integrated 2D polyimines (named as 2DPI-Zn-Azo, 2DPI-2H-Azo, and 2DPI-Zn), which are homogeneous films showing large lateral areas over cm2, uniform transparency, and thickness of tens of nanometers are reported. Particularly, the 2DPI-Zn-Azo film comprising zinc porphyrin and –NN– displays a large saturable absorption under 532 nm and the highest β (−1.88 × 105 cm GW−1) among the three 2D polyimines, that is also 2–5 orders of magnitude higher than the state-of-art performance of photoactive small molecules, porphyrin-integrated 2DPs, and inorganic 2D materials. Control experiments in combination with theoretical calculation discover that the embedding of metal centers and –NN– results in highly delocalized π-electrons and narrow bandgap in 2DPI-Zn-Azo, which enables fast transfer of the photogenerated electrons after the light-excited charge separation, thus boosting the NLO performance. This work opens up a new path for the construction of highly efficient third-order NLO film materials, and pushes the development of 2DPs for optics and optoelectronics.
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