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Metal-enhanced phosphorescence

Zhang YX, Aslan K, Previte MJR, Malyn SN, Geddes CD (2006) Metal-enhanced phosphorescence Interpretation in terms of triplet-coupled radiating plasmons. J Phys Chem B 110 25108-25114... [Pg.131]

Y. Zhang, K. Aslan, S. N. Malyn, and C. D. Geddes. Metal-enhanced phosphorescence (MEP) Chemical physics letters, 2006, 427,432-437. [Pg.22]

Metal-Enhanced Phosphorescence Interpretation in Terms of Triplet-Coupled Radiating Plasmons. J. Phys. Chem. B 110 25108-25114. [Pg.250]

Figure 10.2 Graphical representation of Metal-Enhanced Fluorescence (Top), Metal-Enhanced Phosphorescence (Middle), and for the generation of Singlet Oxygen (Bottom). F - Fluorophore, RB - Rose Bengal, P - Phosphorescence and MEP - Metal-Enhanced Phosphorescence, 302 — triplet ground state oxygen. 102 -singlet oxygen. Adopted from ref [25]. Figure 10.2 Graphical representation of Metal-Enhanced Fluorescence (Top), Metal-Enhanced Phosphorescence (Middle), and for the generation of Singlet Oxygen (Bottom). F - Fluorophore, RB - Rose Bengal, P - Phosphorescence and MEP - Metal-Enhanced Phosphorescence, 302 — triplet ground state oxygen. 102 -singlet oxygen. Adopted from ref [25].
In addition to MEF, Metal - Enhanced Phosphorescence (MEP) at low temperature (18,19) has also been reported, whereby non-radiative energy transfer is thought to occur from excited distal triplet-state luminophores to surface plasinons in non-continuous silver films, which in turn, radiate fluorophore/lumophore phosphorescence emission efficiently (Fig. 10.2-Middle). This observation suggests that photon-induced electronic excited states can both induce and couple to surface plasmons (mirror dipole effect) facilitating both enhanced S fluorescence and... [Pg.280]

Figure 10.9 Sample architecture for the distance dependence of metal-enhanced Superoxide generation (Top), and graphical representation of the interpretation of metal-enhanced superoxide generation with an enhanced and distance dependent excitation rate (Bottom). F - Fluorophore, MEF - Metal-Enhanced Fluorescence, MEP — Metal-enhanced Phosphorescence, SiFs — Silver Island Films. EF- Enhancement factor = I Silver /I Glass. Adopted from ref [31 ]. Figure 10.9 Sample architecture for the distance dependence of metal-enhanced Superoxide generation (Top), and graphical representation of the interpretation of metal-enhanced superoxide generation with an enhanced and distance dependent excitation rate (Bottom). F - Fluorophore, MEF - Metal-Enhanced Fluorescence, MEP — Metal-enhanced Phosphorescence, SiFs — Silver Island Films. EF- Enhancement factor = I Silver /I Glass. Adopted from ref [31 ].
F re 1.13. (A) Graphical representation of current interpretation for Metal-Enhanced Phosphorescence (MEP). (B) Experimental sample geometry. (C) Phosphorescence emission spectra and real-color photographs of Rose Bengal (RB) emission from glass and SIFs. [Pg.635]

See other pages where Metal-enhanced phosphorescence is mentioned: [Pg.291]    [Pg.633]    [Pg.634]    [Pg.637]    [Pg.82]   
See also in sourсe #XX -- [ Pg.82 ]



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