Phosphorescence poly

Using the ratio between band intensities of pyrene emission at specific wavelengths, the dielectric constant of the latex could he evaluated. Phosphorescent poly-MMA particles were also produced using 1-hromonaphthalene. 

Fluorescence and phosphorescence spectra of poly(propynoic acid)(FPA), polyphenylene (PP), and DPAcN show that the difference of energies between the lower excited singlet and triplet states, as observed in the case of PP (583 nm) and DPAcN (528 nm), is considerably greater than that of poly(propynoic acid) (270—300 nm) which besides transitions may undergo rr - transitions. PCSs showing only... 

Fluorescence is much more widely used for analysis than phosphorescence. Yet, the use of fluorescent detectors is limited to the restricted set of additives with fluorescent properties. Fluorescence detection is highly recommended for food analysis (e.g. vitamins), bioscience applications, and environmental analysis. As to poly-mer/additive analysis fluorescence and phosphorescence analysis of UV absorbers, optical brighteners, phenolic and aromatic amine antioxidants are most recurrent [25] with an extensive listing for 29 UVAs and AOs in an organic solvent medium at r.t. and 77 K by Kirkbright et al. [149]. 

Figure 6. Uncorrected phosphorescence spectra of poly(ethylene terephthalate)...

S Kan, X Liu, F Shen, J Zhang, Y Ma, Y Wang, and J Shen, Improved efficiency of single-layer polymer light-emitting devices with poly(vinylcarbazole) doubly doped with phosphorescent and fluorescent dyes as the emitting layer, Adv. Funct. Mater., 13 603-608, 2003. 

D Hertel, S Setayesh, HG Nothofer, U Scherf, K Mullen, and H Bassler, Phosphorescence in conjugated poly(para-phenylene-derivatives), Adv. Mater., 13 65-70, 2001. 

Other groups may cause shortening of the lifetime. The phosphorescence of parvalbumin is quenched by free tryptophan with a quenching rate constant of about 10s M i s l (D. Calhoun, unpublished results). A more extensive survey of proteins or model compounds with known distances between tryptophans is needed to study how adjacent tryptophans affect the lifetime. It should be noted that at low temperature the phosphorescence lifetime of poly-L-tryptophan is about the same as that of die monomer.(12) This does not necessarily mean that in a fluid solution tryptophan-tryptophan interaction could not take place. Thermal fluctuations in the polypeptide chain may transiently produce overlap in the n orbitals between neighboring tryptophans, thus resulting in quenching. 

Hertel D, Setayesh S, Nothofer HG, Scherf U, Mullen K, Bassler H (2001) Phosphorescence in conjugated poly(para-phenylene)-derivatives. Adv Mater 13 65... 

Thymidine phosphate and cytidine phosphate do not phosphoresce in a rigid ethylene glycol-water glass at 77°K109 when directly excited, but thymidine which has lost its proton at Nx does have a triplet which phosphoresces with a decay time of 0.50 sec at high pH uridine also fluoresces with a similar decay time. The quenching of purine fluorescence and appearance of T" fluorescence in UV-irradiated DNA and poly dAT (as well as U" fluorescence in poly rAU) was attributed by Rahn et al.109 to proton transfer from thymine to adenine. This quenches adenine fluorescence and enhances thymine fluorescence. 

Due to the large band gap and high triplet energy level of the poly(3, 6-dibenzosilole) 5, the copolymer is an excellent host for the fabrication of blue polymer phosphorescent light-emitting diodes. A high external quantum efficiency (t/el) of 4.8% and a luminance efficiency of 7.2 cd/A at 644 cd/m2 have been achieved for blue phosphorescence devices (emission peak (AEL) at 462 nm, CIE coordinates x = 0.15,y = 0.26). The performances of the devices are much better than those reported for blue phosphorescent devices with poly(A--viny 1 cabarzo 1 e) (PVK) as the host.32... 

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