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- Indigo has a fluorescence quantum yield of <math>\Phi_{F}</math>= 0.0023, a fluorescence lifetime <math>\tau</math>= 0.14 ns, and an ...Photochromic Soft Materials: Flavylium compounds Incorporated in Pluronic F-127 hydrogel Matrixes”, Langmuir, 2008, 24, 2356-2364.39 KB (5,992 words) - 00:40, 2 February 2018
- [[Category:F|F]] <math>I = \sum_{n=-\infty}^{+\infty } f(a+ n T) , \tag {14}</math>15 KB (2,604 words) - 08:22, 21 July 2017
- ...etence contributed much to the renaissance of science in post-war Germany. Förster’s discoveries and his way of thinking influenced the research of g [[File:Foester Figure 1.1.png|thumb|right|600px|Figure 1.|Figure 1.1. Theodor Förster as a lecturer. Middle: as adviser of his colleagues, and as experime48 KB (7,461 words) - 06:51, 27 August 2019
- ...ce Energy Transfer, or Fluorescence-detected Resonance Energy Transfer, or Förster Resonance Energy Transfer. It is an absorption of electromagnetic r ...acceptor (e). FRET takes place and energy is transferred to the acceptor (f). If the acceptor is fluorescent the acceptor may emit (sensitized emission66 KB (9,851 words) - 09:24, 12 January 2020
- ...n energy, ''R'' is a recombination centre that acts as hole trap, <math>E_{f}</math> is the fermi level.]] ...y <math>Tr</math>, is situated above the equilibrium Fermi level (<math>E_{f}</math>) and thus empty in the equilibrium state, ''i.e.'' before the expos14 KB (2,264 words) - 22:04, 29 September 2017
- [9] Inbaraj, J. J.; Bilski, P.; Chignell, C.F. (2002) Photophysical and photochemical studies of 2-phenylbenzimidazole an [14] McGarry, P. F.; Jockusch, S.; Fujiwara, Y.; Kaprinidis, N. A.; Turro, N. J. (1997) DMSO s14 KB (2,038 words) - 04:39, 1 June 2018
- [1] McKenzie, R. L.; Aucamp, P. J.; Bais, A. F.; Bjorn, L. O.; Ilyas, M.; Madronich, S. (2011) Ozone depletion and climate ...Passaglia Schuch, A.; Machado Garcia, C. C.; Makita, K.; Martins Menck, C. F. (2013) DNA damage as a biological sensor for environmental sunlight. Photo22 KB (3,200 words) - 17:00, 9 March 2020
- ...Passaglia Schuch, A.; Machado Garcia, C. C.; Makita, K.; Martins Menck, C. F. (2013) DNA damage as a biological sensor for environmental sunlight. Photo13 KB (1,921 words) - 17:00, 9 March 2020
- | F | F12 KB (1,859 words) - 14:43, 11 November 2018
- ...rgh (2008), A. H. Zewail Award in Ultrafast Science and Technology (2007); F. Albert Cotton Medal, Texas A&M (2005); Benjamin Franklin Medal in Chemistr6 KB (946 words) - 18:58, 10 November 2017
- ...t only three key persons (at least in my estimation); Dr. H. Kallmann, Dr. F. N. Hayes, and Dr. J. Birks. These three played very important roles in the8 KB (1,202 words) - 23:44, 9 February 2017
- 4. Bianchini P, Cardarelli F, Luca MD, Diaspro A, Bizzarri R. (2014) Nanoscale Protein Diffusion by STED 6. Vicidomini G, Coto Hernández I, d'Amora M, Cella Zanacchi F, Bianchini P, Diaspro A (2014) Gated CW-STED microscopy: A versatile tool f10 KB (1,239 words) - 05:07, 20 July 2017
- ...he decay from the excited state to the ground state by radiative (<math>k_{f}, k_{pf}</math>) and non-radiative (<math>k_{nf}</math>) pathways. ('''B''' ...ude internal conversion (<math>ic</math>), decay by fluorescence (<math>k_{f}</math>), quenching (loss of excitation energy without the emission of ligh26 KB (3,948 words) - 23:39, 3 March 2017
- ...FRET-Jablonski-diagram.jpg|360 px|thumb|A Jablonski diagram representing [[Förster resonance energy transfer]] (FRET)]] ...ted to the Memory of J. Perrin, P. Pringsheim, SI Vavilov, VL Levshin, and F. Perrin." EPA NEWSLETTER-EUROPEAN PHOTOCHEMISTRY ASSOCIATION (1998): 19-72.4 KB (533 words) - 23:26, 9 November 2017
- [7] Beddard, G. S., G. R. Fleming, G. Porter, G. F. W. Searle, and J. A. Synowiec. "The fluorescence decay kinetics of in vivo9 KB (1,367 words) - 17:09, 6 March 2017
- ..., <math>\omega=2\pi f</math> is the angular excitation frequency and <math>f</math> is the frequency of the periodic source. The index i indicates the ...alid if the molecules are interacting. One common example is [[FRET]] (<u>F</u>luorescence <u>R</u>esonance <u>E</u>nergy <u>T</u>ransfer) where the li17 KB (2,823 words) - 18:54, 7 March 2017
- ...and Jameson, D.M. (2011) Anal. Biochem. 413: 43-49. Characterization of Förster resonance energy transfer in a botulinum neurotoxin protease assay.[ 12. Montecinos-Franjola, F., Ross, J.A., Sanchez, S., Brunet, J.E., Lagos, R , Jameson, D.M. and Monas10 KB (1,308 words) - 12:29, 4 March 2017
- ...be comparable or longer than the fluorescence lifetime <math>\tau_{\small F}</math>. When the time-resolved recording is applied, the relaxations shoul ...ath>) but also the fluorescence quenching (reduction of <math>\tau_{\small F}</math>) may cause the appearance of Red Edge effects [8]. Therefore, the i37 KB (5,373 words) - 23:28, 25 March 2017
- ...be comparable or longer than the fluorescence lifetime <math>\tau_{\small F}</math>. When the time-resolved recording is applied, the relaxations shoul ...ath>) but also the fluorescence quenching (reduction of <math>\tau_{\small F}</math>) may cause the appearance of Red Edge effects [8]. Therefore, the i37 KB (5,371 words) - 22:05, 29 September 2017
- '''<big>Felipe Bravo, Bruna de C. F. Vajgel, Estela S. Gusmão and Renata Cimões</big>''' | [[File:Fig.4.A.png|thumb|upright|Figure 4.F.]]30 KB (4,397 words) - 17:02, 5 March 2017
