Phys Rev Lett 2010, 105:183901 CrossRef 7 Lyyke AM, Stobbe S, So

Phys Rev Lett 2010, 105:183901.CrossRef 7. Lyyke AM, Stobbe S, Sondberg SA, Lodahl P: Strongly

modified plasmon-matter interaction with mesocopic quantum emitters. Nat Phys 2010, 7:215–218. 8. Munechika K, Chen Y, Tillack AF, Kulkarni Blasticidin S AP, Plante IJ-L, Ginger DS: Spectral control of plasmonic emission enhancement from quantum dots near single silver nanoprisms. Nano Lett 2010, 10:2598–2603.CrossRef 9. Lakowicz JR, Shen Y, Auria SD, Malicka J, Fang J, Gryczynski Z, Gryczynski I: Radiative decay engineering: 2. Effect of silver island films on fluorescence intensity, lifetimes and resonance energy transfer. Anal Biochem 2002, 277:261–277.CrossRef 10. Biteen JS, Lewis N, Atwater HA, Mertens H, Polman A: Spectral tuning of plasmon-enhanced silicon quantum dot luminescence. Appl Phys Lett 2006, 88:131109.CrossRef 11. Mertens H, Biteen JS, Atwater HA, Polman A: Polarization selective plasmon-enhanced silicon quantum dot luminescence. Nano Lett 2006, 6:2622–2625.CrossRef 12. Indutnyy IZ, Maidanchuk IY, Min’ko NI: Visible photoluminescence from annealed porous SiO x films. Optoelectron and Adv Mater see more 2005, 7:1231–1236. 13. Dan’ko VA, Bratus’ VY, Indutnyi IZ, Lisovskyy IP, Zlobin SO, Michailovska KV, Shepeliavyi

PE: Controlling the photoluminescence spectra of porous nc-Si–SiOx structures by vapor treatment. Semicond Phys Quantum Electron Optoelectron 2010, 13:413–417. 14. Heitmann J, Muller F, Yi L, Zacharias M, Kovalev D, Eichhorn F: Excitons in Si nanocrystals: confinement and migration effect. Phys Rev B 2004, 69:195309.CrossRef 15. Kim JI, Jung DR, Kim J, Nahm C, Byun S, Lee S, Park B: Surface-plasmon-coupled photoluminescence from CdS nanoparticles with Au film. Solid State Commun 2012, 152:1767–1770.CrossRef 16. Methocarbamol Fermi E: Quantum theory of radiation. Rev Mod Phys 1932, 4:87–132.CrossRef 17. Delerue C, Allan G, Reynaud C, Guillois O, Ledoux G,

Huisken F: Multiexponential photoluminescence decay in indirect-gap semiconductor nanocrystals. Phys Rev B 2006, 73:235318.CrossRef 18. Zatrub G, Podhorodecki A, Misiewicz J, Cardin J, Gourbilleau F: On the nature of the stretched exponential plotoluminescence decay for silicon nanocrystals. Nanoscale Res Lett 2011, 6:106.CrossRef 19. Saito R, Murayama K: A universal distribution function of relaxation in amorphous materials. Solid State Commun 1987, 63:625.CrossRef 20. Novotny L, Hecht B: Principles of Nano-Optics. Cambridge: Cambridge University Press; 2013:564. 21. Van Driel A, Nicolaev I, Vergeer P, Lodahl P, Vanmaekelbergh D, Vos W: Statistical analysis of time-resolved emission from ensembles of semiconductor quantum dots: interpretation of exponential decay models. Phys Rev B 2007, 75:035329.CrossRef 22. Nakamura T, Tiwari B, Adachi S: Strongly modified spontaneous emission decay rate of silicon nanocrystals near semicontinuous gold films. Opt Express 2012, 20:26548.

Comments are closed.