The little discrepancy between these two spectra might have origi

The little discrepancy between these two spectra might have originated from the resonant excitation of Er3+. Besides, the peak around 3.8 eV which appears in the PLE spectra might be related to the optical excitation of the Si NCs since the introduction of the Si NCs would enhance the PL intensity of both Si=O states and Er3+. Conclusions In summary, the efficient luminecence of Er3+ in the SROEr film is achieved by the energy transfer process from fast recombination centers Selleck RepSox (LCs). The SROEr films with abundant LCs (WOBs, NOVs, and Si=O states) and Si NCs are prepared by electron beam evaporation following a post-annealing process. Intense

and Alpelisib nmr stable PL of LCs dominated by the Si=O states is obtained in the SROEr matrix. From the investigation of the evolution of the PL properties and 4EGI-1 ic50 microstructures from the SROEr films, we consider the fast energy transfer from the Si=O states to Er3+ as the main transfer mechanism. The introduction of the Si NCs induces the Si=O states and facilitates the photon absorption of the

Si=O states, which is essential to obtain intense PL from both Si=O states and Er3+. Further improvement of the PL property of both the Si=O states and Er3+ might be achieved by optimizing the annealing condition of the SROEr films. Authors’ information DL received his Ph.D. degree in the State Key Laboratory of Silicon Materials and Department of Material

Science and Engineering from Zhejiang University, Hangzhou, China, in 2002. He is currently an Associate Professor acetylcholine in the Department of Material Science and Engineering at Zhejiang University. His current research interests include the synthesis of plasmonic microstructure, application of plasmonic microstructure on solar cells, Raman and luminescence, and silicon photonics. LJ, LX, and FW are currently Ph.D. students in the State Key Laboratory of Silicon Materials and Department of Materials Science and Engineering, Zhejiang University, Hangzhou, China. Their current research interests include luminescence from erbium-doped silicon-rich oxide matrix, silicon-rich nitride matrix, and dislocations in silicon, silicon nitride-based light-emitting devices, and localized surface plasmon resonance of metal nanostructures. DY received his B.S. degree from Zhejiang University, Hangzhou, China, in 1985, and Ph.D. degree in Semiconductor Materials from the State Key Laboratory of Silicon Materials in Zhejiang University, Hangzhou, China, in 1991. He has been with the Institute of Metal Materials in Tohoku University, Japan, and worked for Freiberg University, Germany, from 1995 to 1997. He is currently the director of the State Key Laboratory of Silicon Materials.

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