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Azulene, metal-enhanced fluorescence

Y. Zhang, K. Aslan, M. J. Previte, and C. D. Geddes. Metal-enhanced S2 fluorescence from azulene Chemical Physics Letters 2006,432, 528-532. [Pg.21]

Zhang, Y. X., Aslan, K., Previte, M. J. R., and Geddes, C. D. (2006). Metal-enhanced S-2 fluorescence from azulene Chemical Physics Letters 432 528-532. [Pg.178]

Figure 1.7. (A) Graphical representation of our laboratory s current interpretation of Metal-Enhanced S2 emission (Bottom). IC-Intemal Conversion, VR-Vibrational energy relaxation. Ag-Silver nanoparticle (SIFs), TCP-Transfer/coupling to Plasmons, MES2 -Metal Enhanced S2 Emission. Energy level spacing not drawn to scale. Fluorescence emission spectra, lex = 338 nm, of Azulene sandwiched between two SiFs and unsilvered slides at room temperature (B) Room TeiTq)erature, RT and (C) at 77K. Figure 1.7. (A) Graphical representation of our laboratory s current interpretation of Metal-Enhanced S2 emission (Bottom). IC-Intemal Conversion, VR-Vibrational energy relaxation. Ag-Silver nanoparticle (SIFs), TCP-Transfer/coupling to Plasmons, MES2 -Metal Enhanced S2 Emission. Energy level spacing not drawn to scale. Fluorescence emission spectra, lex = 338 nm, of Azulene sandwiched between two SiFs and unsilvered slides at room temperature (B) Room TeiTq)erature, RT and (C) at 77K.
See other pages where Azulene, metal-enhanced fluorescence is mentioned: [Pg.627]   


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