Enhanced performance of flexible quantum dot light-emitting diodes using a low-temperature processed PTAA hole transport layer

[1]  Bumjoon J. Kim,et al.  Methoxy-Functionalized Triarylamine-Based Hole-Transporting Polymers for Highly Efficient and Stable Perovskite Solar Cells , 2020 .

[2]  A. Carlo,et al.  Light-induced improvement of dopant-free PTAA on performance of inverted perovskite solar cells , 2020 .

[3]  Yong-Seog Kim,et al.  Control of carrier injection and transport in quantum dot light emitting diodes (QLEDs) via modulating Schottky injection barrier and carrier mobility , 2019, Journal of Applied Physics.

[4]  Zhen He,et al.  Achieving efficient inverted planar perovskite solar cells with nondoped PTAA as a hole transport layer , 2019, Organic Electronics.

[5]  S. W. Cho,et al.  Direct p-doping of Li-TFSI for efficient hole injection: Role of polaronic level in molecular doping , 2019, Applied Surface Science.

[6]  S. Kang,et al.  Interfacial electronic structure between a W-doped In2O3 transparent electrode and a V2O5 hole injection layer for inorganic quantum-dot light-emitting diodes , 2019, RSC advances.

[7]  Dae-Hyeong Kim,et al.  Flexible quantum dot light-emitting diodes for next-generation displays , 2018, npj Flexible Electronics.

[8]  Yongseok Jun,et al.  Investigation of Hole-Transporting Poly(triarylamine) on Aggregation and Charge Transport for Hysteresisless Scalable Planar Perovskite Solar Cells. , 2018, ACS applied materials & interfaces.

[9]  Dieter Neher,et al.  Approaching the fill factor Shockley–Queisser limit in stable, dopant-free triple cation perovskite solar cells , 2017 .

[10]  H. Chae,et al.  Polyethylenimine Ethoxylated-Mediated All-Solution-Processed High-Performance Flexible Inverted Quantum Dot-Light-Emitting Device. , 2017, ACS nano.

[11]  L. Qian,et al.  Cadmium-free quantum dots based violet light-emitting diodes: High-efficiency and brightness via optimization of organic hole transport layers , 2015 .

[12]  Yongwoo Kwon,et al.  Over 40 cd/A efficient green quantum dot electroluminescent device comprising uniquely large-sized quantum dots. , 2014, ACS nano.

[13]  A. Carlo,et al.  Substrates for flexible electronics: A practical investigation on the electrical, film flexibility, optical, temperature, and solvent resistance properties , 2011 .

[14]  James S. Speck,et al.  Prospects for LED lighting , 2009 .

[15]  Hideo Umeda,et al.  Plastic Substrates for Flexible Displays , 2006 .