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吴兴龙, X. L. Wu, , Y. F. Mei, G. G. Siu, K. L. Wong, K. Moulding, M. J. Stokes, C. L. Fu, and X. M. Bao
PHYSICAL REVIEW LETTERS VOLUME 86, NUMBER 14 2 APRIL 2001,-0001,():
-1年11月30日
Si-based Er-doped Si nanostructures were fabricated for exploring efficient light emission from Er ions and Si nanocrystallites. High-resolution transmission electron microscopy observations reveal that Si nanocrystallites are spherically embedded in the SiO2 matrix. Energy-dispersive x-ray analysis indicates that the Er centers are distributed at the surfaces of nanocrystallites surrounded by the SiO2 matrix. Lowfrequency Raman scattering investigation shows that Lamb's theory can be adopted to exactly calculate the surface vibration frequencies from acoustic phonons confined in spherical Si nanocrystallites and the matrix effects are negligible.
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【期刊论文】Experimental Evidence for the Quantum Confinement Effect in 3C-SiC Nanocry stallites
吴兴龙, X. L. Wu, , *, †, J.Y. Fan, T. Qiu, X. Yang, G. G. Siu, and Paul K. Chu
PHYSICAL REVIEW LETTERS 21 JANUARY 2005,-0001,():
-1年11月30日
Using electrochemical etching of a polycrystalline 3C-SiC target and subsequent ultrasonic treatment in water solution, we have fabricated suspensions of 3C-SiC nanocrystallites that luminesce. Transmission electron microscope observations show that the 3C-SiC nanocrystallites, which uniformly disperse in water, have sizes in the range of 1-6nm. Photoluminescence and photoluminescence excitation spectral examinations show clear evidence for the quantum confinement of 3C-SiC nanocrystallites with the emission band maximum ranging from 440 to 560nm. Tunable, composite polystyrene/SiC film can be made by adding polystyrene to a toluene suspension of the 3C-SiC nanocrystallites and then coating the resulting solution onto a Siwafer.
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【期刊论文】Optical Emission from Excess Si Defect Centers in SiNanostructures
吴兴龙, X. L.Wu, , * S. J. Xiong, G.G. Siu, G. S. Huang, Y. F. Mei, Z.Y. Zhang, S. S. Deng, and C. Tan
PHYSICAL REVIEW LETTERS VOLUME 91, NUMBER 15 10 OCTOBER 2003,-0001,():
-1年11月30日
Four groups of Si nanostructures with and without-SiC nanocrystals were fabricated for clarifying the origin of a blue emission with a double-peak structure at 417 and 436nm. Spectral analyses and microstructural observations show that the blue emission is related to the existence of excess Si atoms in these Si nanostructures. The energy levels of electrons in Si nanocrystals with vacancy defects formed from the excess Si atoms are calculated and the characteristics of the obtained density of states coincide with the observed double-peak emission. The present work provides a possible mechanism of the blue emission in various Si nanostructures.
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吴兴龙, X. L. Wua a, G. G. Siu and C. L. Fu, H. C. Ong
Appl. Phys. Lett., Vol. 78, No.16, 16 April 2001,-0001,():
-1年11月30日
Photoluminescence and cathodoluminescence (CL) spectra of stoichiometric and oxygen-deficient ZnO films grown on sapphire were examined. It was found that the intensities of the green and yellow emissions depend on the width of the free-carrier depletion region at the particle surface; the thinner the width, the larger the intensity. Experimental results and spectral analyses suggest that the mechanism responsible for the green yellow! emission is the recombination of a delocalized electron close to the conduction band with a deeply trapped hole in the single ionized oxygen vacancy Voll the single negatively charged interstitial oxygen ion Oi2) center in the particle.
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吴兴龙, X. L. Wu, S. J. Xiong, D. L. Fan, Y. Gu, and X. M. Bao, G. G. Siu and M. J. Stokes
PHYSICAL REVIEW B VOLUME 62, NUMBER 12 15 SEPTEMBER 2000-II,-0001,():
-1年11月30日
Photoluminescence (PL) spectra of as-made porous Si samples were obtained in a wide peak-wavelength range. After exposure to air or coupling with C60 molecules, the PL peak shifts to a pinning wavelength within the range of 610-630nm. This pinning wavelength is almost independent of the size of the original porous Si nanocrystallites and both redshifting and blueshifting can occur for different sizes. A self-consistent effectivemass calculation shows that the SivO binding states are responsible for the radiation of this pinning wavelength and the blueshift for the large nanocrystallites is due to the additional potential modulation within the Si nanocrystallite by the long-range Coulomb interaction of oxygen ions.
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