In Situ Super-Hindrance-Triggered Multilayer Cracks for Random Lasing in π-Functional Nanopolymer Films-Reference-Cited by-同舟云学术

In Situ Super-Hindrance-Triggered Multilayer Cracks for Random Lasing in π-Functional Nanopolymer Films

Published:2023-01 Issue: Volume:6 Page:
ISSN:2639-5274
Container-title:Research
language:en
Short-container-title:Research

Author:

Lin Dongqing¹,Li Yang¹,Zhang He¹,Zhang Shuai²,Gao Yuezheng¹,Zhai Tianrui²,Hu Shu³,Sheng Chuanxiang³,Guo Heng⁴,Xu Chunxiang⁴,Wei Ying¹,Li Shifeng⁵,Han Yelong¹,Feng Quanyou¹,Wang Shasha¹,Xie Linghai¹,Huang Wei¹⁶

Affiliation:

1. Centre for Molecular Systems and Organic Devices (CMSOD), State Key Laboratory of Organic Electronics and Information Displays & Institute of Advanced Materials (IAM), Nanjing University of Posts and Telecommunications, 9 Wenyuan Road, Nanjing 210023, China.

2. College of Physics and Optoelectronics, Faculty of Science, Beijing University of Technology, Beijing 100124, China.

3. School of Electronic and Optical Engineering, Nanjing University of Science and Technology, Nanjing 210094, China.

4. State Key Laboratory of Bioelectronics, School of Biological Sciences & Medical Engineering, Southeast University, Nanjing 210096, China.

5. College of Engineering and Applied Science, Nanjing University, Nanjing, 210023, China.

6. Frontiers Science Center for Flexible Electronics (FSCFE), MIIT Key Laboratory of Flexible Electronics (KLoFE), Northwestern Polytechnical University, Xi'an 710072, China.

Abstract

In situ self-assembly of semiconducting emitters into multilayer cracks is a significant solution-processing method to fabricate organic high- Q lasers. However, it is still difficult to realize from conventional conjugated polymers. Herein, we create the molecular super-hindrance-etching technology, based on the π-functional nanopolymer PG-Cz, to modulate multilayer cracks applied in organic single-component random lasers. Massive interface cracks are formed by promoting interchain disentanglement with the super-steric hindrance effect of π-interrupted main chains, and multilayer morphologies with photonic-crystal-like ordering are also generated simultaneously during the drop-casting method. Meanwhile, the enhancement of quantum yields on micrometer-thick films ( Φ = 40% to 50%) ensures high-efficient and ultrastable deep-blue emission. Furthermore, a deep-blue random lasing is achieved with narrow linewidths ~0.08 nm and high-quality factors Q ≈ 5,500 to 6,200. These findings will offer promising pathways of organic π-nanopolymers for the simplification of solution processes applied in lasing devices and wearable photonics.

Publisher

American Association for the Advancement of Science (AAAS)

Subject

Multidisciplinary

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