Introducing Spiro‐locks into the Nitrogen/Carbonyl System towards Efficient Narrowband Deep‐blue Multi‐resonance TADF Emitters

Author:

Yu You‐Jun1,Feng Zi‐Qi1,Meng Xin‐Yue1,Chen Long1,Liu Fu‐Ming1,Yang Sheng‐Yi1,Zhou Dong‐Ying1,Liao Liang‐Sheng12,Jiang Zuo‐Quan1ORCID

Affiliation:

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

2. Macao Institute of Materials Science and Engineering Macau University of Science and Technology 999078 Taipa Macau SAR China

Abstract

AbstractThe current availability of multi‐resonance thermally activated delayed fluorescence (MR‐TADF) materials with excellent color purity and high device efficiency in the deep‐blue region is appealing. To address this issue in the emerged nitrogen/carbonyl MR‐TADF system, we propose a spiro‐lock strategy. By incorporating spiro functionalization into a concise molecular skeleton, a series of emitters (SFQ, SOQ, SSQ, and SSeQ) can enhance molecular rigidity, blue‐shift the emission peak, narrow the emission band, increase the photoluminescence quantum yield by over 92 %, and suppress intermolecular interactions in the film state. The referent CZQ without spiro structure has a more planar skeleton, and its bluer emission in the solution state redshifts over 40 nm with serious spectrum broadening and a low PLQY in the film state. As a result, SSQ achieves an external quantum efficiency of 25.5 % with a peak at 456 nm and a small full width at half maximum of 31 nm in a simple unsensitized device, significantly outperforming CZQ. This work discloses the importance of spiro‐junction in modulating deep‐blue MR‐TADF emitters.

Funder

National Natural Science Foundation of China

Natural Science Foundation of Jiangsu Province

Science and Technology Program of Suzhou

Publisher

Wiley

Subject

General Chemistry,Catalysis

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