Issue 12, 2023

Red-shift emission and rapid up-conversion of B,N-containing electroluminescent materials via tuning intramolecular charge transfer

Abstract

Boron (B) and nitrogen (N)-based polycyclic aromatic hydrocarbons (PAHs) have been demonstrated as promising materials for building efficient thermally activated delayed fluorescent (TADF) emitters in blue and green regions, while red emission materials based on B,N systems are rare. Hence, to achieve a red-shifted emission peak over 600 nm by simply modifying the core of B,N-PAHs is a rewarding and challenging task. In this work, we demonstrate the para-D–π–B strategy implementation of modulating the predominance of locally excited (LE)/charger transfer (CT) states by introducing peripheral electron-donating units in a boron-carbazole containing backbone (BNCz) to develop four TADF emitters, BN-TC, BN-AC, BN-PXZ and BN-PZ. Due to the effect of different donor strengths on the excited states of these materials, we obtain full-color emission and a high photoluminescence quantum yield (ΦPL) of nearly 100%. Notably, the device employing BN-PZ as a dopant exhibits orange-red emission with an electroluminescence (EL) peak at 612 nm. Meanwhile, this compound realizes very fast reverse intersystem crossing (RISC) with a rate constant (kRISC) of 1.8 × 106 s−1, resulting in a device with a high external quantum efficiency (EQE) of 25.0% and low efficiency roll-off at high brightness.

Graphical abstract: Red-shift emission and rapid up-conversion of B,N-containing electroluminescent materials via tuning intramolecular charge transfer

Supplementary files

Article information

Article type
Research Article
Submitted
12 فرؤری 2023
Accepted
20 مارٕچ 2023
First published
22 مارٕچ 2023

Mater. Chem. Front., 2023,7, 2454-2463

Red-shift emission and rapid up-conversion of B,N-containing electroluminescent materials via tuning intramolecular charge transfer

Y. He, F. Xie, H. Li, K. Zhang, Y. Shen, F. Ding, C. Wang, Y. Li and J. Tang, Mater. Chem. Front., 2023, 7, 2454 DOI: 10.1039/D3QM00131H

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