Dependence of the stability of organic light-emitting diodes on driving mode

Abstract: We investigated the effects of pulsed current (PC) and direct current (DC) driving modes on the stability of organic light-emitting diodes with and without hole-injection layers (HILs). Two different HIL materials were used: copper phthalocyanine (CuPc) and 4,4′,4″-tris(3-methylphenylphenylamino)triphenylamine (m-MDTATA). It was found that the half-lives of devices using PC driving modes were different from those of comparable devices using DC driving modes. For the devices without HILs, with CuPc HILs and wit… Show more

“…17 Since then, considerable efforts have been invested in material synthesis and device architecture and signicant progress has been achieved; for example, QDLED performance has been boosted from 0.001% to over 20%. Numerous approaches have been proposed for enhancing QDLED performance, such as the engineering of functional layers, including charge transport or injection layers and electronblocking layers, [18][19][20][21][22][23][24] and passivation methods, including positive aging treatment. 25,26 One of the challenges faced by highly efficient QDLEDs is the carrier imbalance resulting from the mobility mismatch of the carrier transporting layer.…”

Lifetime elongation of quantum-dot light-emitting diodes by inhibiting the degradation of hole transport layer

“…17 Since then, considerable efforts have been invested in material synthesis and device architecture and signicant progress has been achieved; for example, QDLED performance has been boosted from 0.001% to over 20%. Numerous approaches have been proposed for enhancing QDLED performance, such as the engineering of functional layers, including charge transport or injection layers and electronblocking layers, [18][19][20][21][22][23][24] and passivation methods, including positive aging treatment. 25,26 One of the challenges faced by highly efficient QDLEDs is the carrier imbalance resulting from the mobility mismatch of the carrier transporting layer.…”

Lifetime elongation of quantum-dot light-emitting diodes by inhibiting the degradation of hole transport layer

“…Wang et al . reported the phase transition of Alq 3 powder to take place between 643 K and 669 K. Furthermore, they reported the melting and evaporation of Alq 3 is at 703 K. Most of the recent studies have been focused on the optimization of the device , to improve the stability of the device , the charge transport mechanisms and the tuning of OLED emission spectrum . Few studies were focused on the correlation between molecular structure and optical properties of Alq 3 films (temperature and thickness stability).…”

Effect of thermal annealing on the structural and optical properties of tris‐(8‐hydroxyquinoline)aluminum(III) (Alq₃) films

“…Applications include flat panel displays and lighting, traffic lights, back lighting in liquid crystal displays and white LEDs [1][2][3][4]. For high power applications, LEDs operate at high current densities, yielding remarkable efficiency droops [5].…”

The effect of multi-quantum barrier structure on light-emitting diodes performance by a non-isothermal model