24‐2: Exploring Luminescent Mechanisms in Non‐Carrier‐Injection QLEDs via Spontaneous Spreading Method

Abstract

The luminescent properties and mechanisms of non‐carrier injection (NCI) mode quantum dot light‐emitting diodes (QLEDs) were explored in this work. The intermediate insulator electric layer, Poly(vinylidene fluoride‐trifluoroethylene‐chlorofluoroethyl ene) (P(VDF‐TrFE‐CFE)), effectively blocks carrier injection from the electrodes. Carriers for radiative recombination in the quantum dot (QD) layer are generated by the corresponding carrier generation complex layer under an AC electric field. In this investigation, the emission layer (EML), comprising distinct layers of Cd‐based quantum dots, was precisely regulated using the spontaneous spreading (SS) method. The work revealed that the thickness of the QDs in NCI‐QLEDs significantly influences the device's luminescent performance. In NCI‐QLEDs with a double QD layer as the EML, the device exhibited a maximum brightness of 1003.6 cd m⁻2 and a start‐up voltage of 7 root mean square voltage (VRMS). This brightness level represents the highest reported for vertical emission NCI‐QLEDs. All devices exhibited a broad range of driven voltages. Interestingly, luminescence was detected only during a half‐cycle of the driven signal, as indicated by transient time‐resolved spectrum test results. A system was established to analyze the luminescence mechanism comprehensively. Finally, a proposed carrier compounding mechanism sheds light on the behavior of NCI‐QLED devices..