Electroluminescent devices physics

Figure 11.27 PL spectrum (- -) for Sm(DBM)3(Bath) film by excitation at 448 nm and EL spectrum (-) for the device driven by 4.5 V in the NIR region [73]. (Reproduced from B. Chu et al., Observation of near infrared and enhanced visible emissions from electroluminescent devices with organo samarium(III) complex, Journal of Physics D Applied Physics, 39, 4549-4552, 2006, with permission from Institute of Physics and lOP Publishing Limited.)...

Sano, T., Fujita, M., Fujii, T., et al. K. (1995) Novel europium complex for electroluminescent devices with sharp red emission. Japanese Journal of Applied Physics, 34, 1883-1887. 

Sun, RR, Duan, J.R, Shih, H.T., and Cheng, C.H. (2002) Europium complex as a highly efficient red emitter in electroluminescent devices. Applied Physics Letter, 81, 792-794. 

Kido, J., Hayase, H., Honggawa, K., et al (1994) Bright red light- emitting organic electroluminescent devices having a europium complex as an emitter. Applied Physics Letter, 65, 2124—2126. 

Liang, C.L., Zhao, D., Hong, Z.R., et al. (2000) Improved performance of electroluminescent devices based on an europium complex. Applied Physics Letter, 76, 67-69. 

Okamoto. S. Tanaka. K. Izumi. Y. Adachi. H. Yamaji. T. Suzuki. T. (2001). Simple Measurement of Quantum Efficiency in Organic Electroluminescent Devices. Japanese Journal of Applied Physics, vol. 40, no. 7B, L783-4. 

The Physics of Electroluminescent Devices 5.2.1 The Physics of Conjugated Polymers... 

DDC Bradley, Electroluminescent polymers materials, physics and device engineering, Curr. Opin. Solid State Mater. Sci., 1 789-797, 1996. 

Fig. 16 Parameters for defining the charge-transfer state energy cx in organic solar cells. Charge-transfer state energy for MDMO-PPV PCBM blend device determined by Fourier transform photocurrent spectroscopy and electroluminescence measurements. Reprinted figure with permission from [188]. Copyright 2010 by the American Physical Society...

---