Find the fluorescence lifetime of Phenanthrene (with unit)
Find the fluorescence lifetime of Phenanthrene (with unit)
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4. For phenanthrene, the measured lifetime of the triplet state is 5 = 3.3 s. The...
4. For phenanthrene, the measured lifetime of the triplet state is 5 = 3.3 s. The measured lifetime of the singlet state is = 34 ns. The fluorescence quantum yield is 4 -0.12 and the phosphorescence quantum yield i 0.13. Assume that no collisional quenching and no internal conversion from the excited singlet state S, occurs. Determine the fluorescence rate constant k, and the rate constant for intersystem crossing from the excited singlet state to the triplet state . Also...
Why fluorescence lifetime is generally short?
Why fluorescence lifetime is generally short?
11E.2 The observed fluorescence lifetime in the absence of a quencher is 1.4 ns. In the presence ...
11E.2 The observed fluorescence lifetime in the absence of a quencher is 1.4 ns. In the presence of a quencher the fluorescence lifetime is 0.8 ns. Calculate the quenching efficiency, which is the ratio of the fluorescence quantum yields in the presence and absence of the quencher, EFO F.0.
11E.2 The observed fluorescence lifetime in the absence of a quencher is 1.4 ns. In the presence of a quencher the fluorescence lifetime is 0.8 ns. Calculate the quenching efficiency, which...
2. Dansyl chloride fluoresces maximally at 450 nm. If the observed fluorescence lifetime is 0.777 ns....
2. Dansyl chloride fluoresces maximally at 450 nm. If the observed fluorescence lifetime is 0.777 ns. If the quantum yield is 0.40, what is the intrinsic fluorescence lifetime?
The fluorescence lifetime of a dye used as the donor molecule for FRET is 4.0ns. In...
The fluorescence lifetime of a dye used as the donor molecule for FRET is 4.0ns. In the presence of the acceptor the lifetime of the donor decreases to 1.8ns. a) Calculate the efficiency of energy transfer for this donor-acceptor pair. b) If the Foster radius for this pair R0 is 40A, calculate the distance (in Angstroms) between the donor and the acceptor assuming that in this sample the value of k2=2/3.
1) What can you use fluorescence lifetime (FLIM) measurements for and what is the advantage compare...
1) What can you use fluorescence lifetime (FLIM) measurements for and what is the advantage compare with fluorescence intensity measurements? I have difficult to understand why FLIM is a better technique than fluorescence intensity? by better I mean the advantage FLIM have comparing to fluorescence intensity method? They say its better because FLIM is indenpendent of change in fluorescence intensity, and fluorophore concentration. But in FLIM measurement we measure the intensity of flourophore versus time? just like the fluorescence intensity...
In the absence of added quenchers, the fluorescence quantum yield is found to be 30%. Calculate...
In the absence of added quenchers, the fluorescence quantum yield is found to be 30%. Calculate the fluorescence lifetime under these conditions on the assumption that the fluorescence decay is monoexponential. 10 mM NaI causes the fluorescence yield and lifetime both to decrease to 10% of their original values. Calculate the Stern-Vollmer quenching constant.Calculate the bimolecular rate constant for the quenching by NaI.
You have two solutions that emit the same amount of fluorescence when excited at 488 nm....
You have two solutions that emit the same amount of fluorescence when excited at 488 nm. One has a fluorescence lifetime of 1 ns and the other has a fluorescence lifetime of 5 ns. You mix the two solutions in the ratio 2:1 in a cuvette (2 times the 1 ns solution and 1 time the 5 ns solution) in a cuvette. Calculate the value of the average fluorescence lifetime tav for this mixture in the cuvette.
Problem 2: a) Find the dimensionless Henry's Law constant for (i) phenanthrene and (ii) TCE (hint:...
Problem 2: a) Find the dimensionless Henry's Law constant for (i) phenanthrene and (ii) TCE (hint: use the solubility and vapor pressure to estimate Henry's law constant). (b) Which compound is more volatile? Justify your answer using the vapor pressure and Henry's constant values. Phenanthrene | TCE Solubility (mol/L) 6.3E-6 | 8.32E-3 Vapor Pressure (atm) | 2.2E-7 9.87E-2
(i) State which wavelength (primary peak) corresponds to fluorescence and also to phosphorescence...
(i) State which wavelength (primary peak) corresponds to fluorescence and also to phosphorescence? By calculating the energy of each peak, draw the energy level diagram corresponding to the graph below. Highlight transition of light absorbance, fluorescence and phosphorescence emission Briefly state with appropriate diagrams, a) why the phosphorescence emission has a longer lifetime and b) appears at a lower energy with a lower intensity. (ii) (iii) 900 800 700 600 500 400 300 200 100 350 400 450 500 550...
4. For phenanthrene, the measured lifetime of the triplet state is 5 = 3.3 s. The measured lifetime of the singlet state is = 34 ns. The fluorescence quantum yield is 4 -0.12 and the phosphorescence quantum yield i 0.13. Assume that no collisional quenching and no internal conversion from the excited singlet state S, occurs. Determine the fluorescence rate constant k, and the rate constant for intersystem crossing from the excited singlet state to the triplet state . Also...
11E.2 The observed fluorescence lifetime in the absence of a quencher is 1.4 ns. In the presence of a quencher the fluorescence lifetime is 0.8 ns. Calculate the quenching efficiency, which is the ratio of the fluorescence quantum yields in the presence and absence of the quencher, EFO F.0.
11E.2 The observed fluorescence lifetime in the absence of a quencher is 1.4 ns. In the presence of a quencher the fluorescence lifetime is 0.8 ns. Calculate the quenching efficiency, which...
2. Dansyl chloride fluoresces maximally at 450 nm. If the observed fluorescence lifetime is 0.777 ns. If the quantum yield is 0.40, what is the intrinsic fluorescence lifetime?
Problem 2: a) Find the dimensionless Henry's Law constant for (i) phenanthrene and (ii) TCE (hint: use the solubility and vapor pressure to estimate Henry's law constant). (b) Which compound is more volatile? Justify your answer using the vapor pressure and Henry's constant values. Phenanthrene | TCE Solubility (mol/L) 6.3E-6 | 8.32E-3 Vapor Pressure (atm) | 2.2E-7 9.87E-2
(i) State which wavelength (primary peak) corresponds to fluorescence and also to phosphorescence? By calculating the energy of each peak, draw the energy level diagram corresponding to the graph below. Highlight transition of light absorbance, fluorescence and phosphorescence emission Briefly state with appropriate diagrams, a) why the phosphorescence emission has a longer lifetime and b) appears at a lower energy with a lower intensity. (ii) (iii) 900 800 700 600 500 400 300 200 100 350 400 450 500 550...
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