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Time-dependent quenching

Another recent study makes use of the participation of the T2 state in the S - TISC process in anthracene [31]. 1,3-Octadiene was used to intercept some of the T2 states before they relaxed to Tx and the decrease in 7, yield was used to estimate the T2 lifetime. Further, this study compensated for the effects of static and time-dependent quenching that comes into play at the relatively large quencher concentrations that are required when quenching sub-nanosecond-lifetime transients. The lifetimes obtained (given in Table 5) were significantly less than previously estimated from other quenching studies and are in line with the lifetimes implied from the T-T fluorescence quantum yields discussed above. [Pg.262]

Table III Poly(VBuPBD) Decay Pareuneters for Time Dependent Quenching - Equation 4... Table III Poly(VBuPBD) Decay Pareuneters for Time Dependent Quenching - Equation 4...
Analysis of the quenching data of pyrene fluorescence by 1-dodecylpyridinium chloride, DPC via pulsed laser studies confirms the Poisson distribution of DPC amongst the aggregates. Figure 10A shows the excellent fit of the Poisson kinetics to the time -dependent quenching of Pyrene fluorescence in deaerated aqueous... [Pg.448]

Fig 1 Transfer of all-rra s-retinol from IRBP to unilamellar vesicles of DOPC Vesicles containing 2 mol% NBD-DPPE (2 mil/) were mixed with all-/ra/j -retinol-IRBP complex (1 )M, ligand/protein mol ratio = 2). Transfer of all-tmns-retinol from IRBP to vesicles was followed by the time-dependent quenching of ail-traii5-retinol fluorescence upon its amval at the vesicles (excitation, 350 nm, emission, 480 nm) The insets shows the residuals of the fit of the trace to a single first-order reaction... [Pg.184]

The maximum rates of crystallisation of the more common crystalline copolymers occur at 80—120°C. In many cases, these copolymers have broad composition distributions containing both fractions of high VDC content that crystallise rapidly and other fractions that do not crystallise at all. Poly(vinyhdene chloride) probably crystallises at a maximum rate at 140—150°C, but the process is difficult to foUow because of severe polymer degradation. The copolymers may remain amorphous for a considerable period of time if quenched to room temperature. The induction time before the onset of crystallisation depends on both the type and amount of comonomer PVDC crystallises within minutes at 25°C. [Pg.432]

Langevin simulations of time-dependent Ginzburg-Landau models have also been performed to study other dynamical aspects of amphiphilic systems [223,224]. An attractive alternative approach is that of the Lattice-Boltzmann models, which take proper account of the hydrodynamics of the system. They have been used recently to study quenches from a disordered phase in a lamellar phase [225,226]. [Pg.667]

Phosphorescence quenching la 35 -, detection limits la 15 -, time dependance la 34 Phosphoric acid la 179,185,242,278,430 Phosphoric acid esters la 44,170 Phosphoric acid insecticides lb 115,332, 339,340... [Pg.492]

To perform structural research on a food stuff into which a colorant is incorporated, special properties of fluorescing molecules are exploited fluorescence efficiency, fluorescence lifetime, fluorescence quenching, radiationless energy (Foerster) transfer, stationary or time-dependent fluorescence polarization and depolarization." Generally, if food colorants fluoresce, they allow very sensitive investigations which in most cases cannot be surpassed by other methods. [Pg.14]

The time-dependent, rapid freeze-quench Mossbauer experiments with M. capsulatus (Bath) (51) indicate that decay of the peroxo species proceeds with the concomitant formation of another intermediate, named compound Q. This intermediate, observed in both the M. tri-chosporium OB3b (69, 70) and M. capsulatus (Bath) (51, 71) MMO systems by Mossbauer and optical spectroscopy, decays faster in the presence of substrates. Such behavior indicates that this intermediate is probably on the kinetic reaction pathway for hydroxylation (51, 70). [Pg.280]

The same experiment can be carried out quantitatively. By taking into account radiationless processes, namely, internal conversion fcIC, intersystem crossing isc, and bimolecular quenching kQ[Q] with a quencher Q, the time-dependent concentrations of the donor D and the acceptor A in the excited singlet state Si, [Ds,] and [As,] can be expressed as follows ... [Pg.52]

We also have explored the solution of the time-dependent eq 1 to study the plot corresponding to Figure 1 when the observation of fluorescence quenching in reaction 14 is made at short times. In these short-time calculations we have assumed, for... [Pg.244]

The importance of comparing time-dependent and steady-state fluorescence measurements is well illustrated by the difficulty of resolving purely static from purely dynamic quenching. In either case, the basic relationship between the steady-state fluorescence intensity and quencher concentration is the same. The Stem-Volmer relationship for static quenching due to formation of an intermolecular complex is i... [Pg.18]

Time-dependent fluorescence measurements have been made on tyrosine in calf thymus nucleosome core particles by Ashikawa et al. S7) Based on the salt dependence of the decay data, the tyrosines were divided into two classes. At 20 to 400 mM salt, about half of the tyrosine residues appear to be partially quenched, possibly by resonance energy transfer to DNA bases. The other half are thought to be statically quenched, possibly by hydrogen bonds this quenching is partially eliminated at about 2 M salt. In view of the number of tyrosines per nucleosome core particle (estimated at 30), it is impossible to make a more detailed analysis of the decay data. [Pg.23]

Reaction time depends on HPLC results the reaction was quenched when 51 % conversion was reached. [Pg.211]

Because the mechanisms of 1-naphtol complexation with HA obtained by using these three techniques exhibit similar pathways, we present the results only from fluorescence spectroscopy. The ratio of fluorescence intensity in the absence (FJ and in the presence (F) of the quencher (HA) over time, as affected by pH and ionic strength, are illustrated in Fig. 16.20. The fluorescence intensity of a fluorophore in the absence of a quencher is directly proportional to its concentration in solution, and therefore time-dependent changes in E can be used to assess the stability of 1-naphtol under different pH and ionic strength. Quenching (FQ) of 1-naphtol fluorescence by humic acid increased with equilibration time from one to seven days. This time-dependent relationship was found to result from weak complexation of... [Pg.344]

See other pages where Time-dependent quenching is mentioned: [Pg.278]    [Pg.206]    [Pg.170]    [Pg.175]    [Pg.559]    [Pg.278]    [Pg.206]    [Pg.170]    [Pg.175]    [Pg.559]    [Pg.733]    [Pg.734]    [Pg.2116]    [Pg.393]    [Pg.248]    [Pg.149]    [Pg.184]    [Pg.61]    [Pg.57]    [Pg.213]    [Pg.17]    [Pg.194]    [Pg.319]    [Pg.205]    [Pg.211]    [Pg.369]    [Pg.177]    [Pg.417]    [Pg.456]    [Pg.46]    [Pg.274]    [Pg.275]    [Pg.77]    [Pg.8]    [Pg.33]    [Pg.234]    [Pg.141]    [Pg.130]   
See also in sourсe #XX -- [ Pg.175 , Pg.179 , Pg.448 ]



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Fluorescence quenching, time dependence

Time-dependent fluorescence quenching

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