Mobile QR Code QR CODE

References

1 
Geffroy B., Le Roy P., Prat C., Feb. 2006, Organic light-emitting diode (OLED) technology: materials, devices and display technologies, Polymer international, Vol. 55, No. 6, pp. 572-582DOI
2 
Obolda A., et al. , Mar. 2016, Triplet-polaron-interaction-induced upconversion from triplet to singlet: a possible way to obtain highly efficient OLEDs, Advanced Materials, Vol. 28, No. 23, pp. 4740-4746DOI
3 
Liu Y.F., et al. , Oct. 2019., Recent developments in flexible organic light-emitting devices, Advanced Materials Technologies, Vol. 4, No. 1, pp. 1800371DOI
4 
Cheng Y.-H., et al. , Jan. 2007., Enhanced light outcoupling in a thin film by texturing meshed surfaces, Applied Physics Letters, Vol. 90, No. 9, pp. 091102DOI
5 
Nowy S., et al. , Oct. 2008., Light extraction and optical loss mechanisms in organic light-emitting diodes: Influence of the emitter quantum efficiency, Journal of Applied Physics, Vol. 104, No. 12, pp. 123109DOI
6 
Zou S.-J., et al. , Nov. 2020, Recent advances in organic light-emitting diodes: toward smart lighting and displays, Materials Chemistry Frontiers, Vol. 4, No. 3, pp. 788-820DOI
7 
McCarron R., et al. , Aug. 2011., Light extraction beyond total internal reflection using one-dimensional plasmonic crystals, Applied Physics Letters, Vol. 99, No. 8, pp. 081106DOI
8 
Raut H.K., et al. , Aug. 2011, Anti-reflective coatings: A critical, in-depth review, Energy & Environmental Science, Vol. 4, No. 10, pp. 3779-3804DOI
9 
Kim K.-H., Park S.-Y., Sep. 2016, Enhancing light-extraction efficiency of OLEDs with high-and low-refractive-index organic-inorganic hybrid materials, Organic Electronics, Vol. 36, pp. 103-112DOI
10 
Shi X.-B., et al. , 2012., Surface plasmon polariton enhancement in blue organic light-emitting diode: role of metallic cathode, Applied Physics Express, Vol. 5, No. 10, pp. 102102DOI
11 
He X., et al. , Sep. 2015, Localized surface plasmon-enhanced electroluminescence in OLEDs by self-assembly Ag nanoparticle film, Nanoscale Research Letters, Vol. 10, No. 1, pp. 1-6DOI
12 
Jin Y., et al. , May 2017, Optimization of period and thickness of the corrugated Ag cathode for efficient cross coupling between SPP and microcavity modes in top-emitting OLEDs, Optical Materials Express, Vol. 7, No. 6, pp. 2096-2101DOI
13 
Konopsky V., et al. , Jan. 2020, Electrical excitation of long-range surface plasmons in PC/OLED structure with two metal nanolayers, Nano-Micro Letters, Vol. 12, No. 1, pp. 1-8DOI
14 
Wen X.-M., et al. , Aug. 2021, Tunable surface plasmon-polariton resonance in organic light-emitting devices based on corrugated alloy electrodes, Opto-Electronic Advances, Vol. 4, No. 8, pp. 200024-200021-200024-200027DOI
15 
Kim J., et al. , July 2018, Efficient outcoupling of organic light-emitting devices using a light-scattering dielectric layer, ACS Photonics, Vol. 5, No. 8, pp. 3315-3321DOI
16 
Zhou J.-G., et al. , Mar. 2019, Nano-modified indium tin oxide incorporated with ideal microlens array for light extraction of OLED, Journal of Materials Chemistry C, Vol. 7, No. 13, pp. 3958-3964DOI
17 
Zhong K., Fu Y., Jiang G., June 2020, Improvement in light out-coupling efficiency of OLED by using high fill factor parabola curve microlens arrays, Optik, Vol. 212, pp. 164604DOI
18 
Zhou D.-Y., et al. , Sep. 2014, Light extraction enhancement from organic light-emitting diodes with randomly scattered surface fixture, Applied surface science, Vol. 314, pp. 858-863DOI
19 
Qu Y., Slootsky M., Forrest S.R., 2015, Enhanced light extraction from organic light-emitting devices using a sub-anode grid, Nature Photonics, Vol. 9, No. 11, pp. 758-763DOI
20 
Will P.-A., et al. , Oct. 2018, Scattering quantified: Evaluation of corrugation induced outcoupling concepts in organic light-emitting diodes, Organic Electronics, Vol. 58, pp. 250-256DOI
21 
Fu X., et al. , Oct. 2020, Recovering cavity effects in corrugated organic light emitting diodes, Optics Express, Vol. 28, No. 21, pp. 32214-32225DOI
22 
Jiang J., et al. , June 2020, Color-tunable organic light emitting diodes for deep blue emission by regulating the optical micro-cavity, Molecules, Vol. 25, No. 12, pp. 2867DOI
23 
Hobson P. A., et al. , 2002, The Role of Surface Plasmons in Organic Light-Emitting Diodes, IEEE J. Sel. Top. Quantum Electron, Vol. 8, No. 2, pp. 378-386DOI
24 
Pitarke J. M., et al. , 2007, Theory of surface plasmons and surface-plasmon polaritons, Rep. Prog. Phys., Vol. 70, pp. 1-87DOI
25 
Tian Baolin, et al. , 2011, Transparent organic light-emitting devices using a MoO3/Ag/MoO3 cathode, Journal of Applied Physics, Vol. 110, No. 10, pp. 104507DOI
26 
Cao Weiran, et al. , 2014., Transparent electrodes for organic optoelectronic devices: a review, Journal of Photonics for energy, Vol. 4, No. 1, pp. 040990DOI