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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
- * Khan F, Kuprov I, Craggs TD, Hore PJ & Jackson SE (2006) 19 F NMR Studies of the Native and Denatured States of Green Fluorescent Protein6 KB (755 words) - 07:39, 10 March 2017
- Garlick, G. F. J. and Gibson, A. F. "The electron trap mechanism of luminescence in sulphide and silicate phos Randall J. T. and Wilkins, M. H. F. "The phosphorescence of various solids,"Proc. Roy. Soc. London, A184 (19428 KB (4,537 words) - 21:58, 29 September 2017
- | Unveiling the Third Secret of Fátima: l-XRF quantitative characterization and 2D elemental mapping. A set Mould, R. F. “The early history of x-ray diagnosis with emphasis on the contributions145 KB (21,120 words) - 10:44, 17 July 2017
- ...ight source at a given sinusoidal angular frequency <math>\omega \, (=2\pi f)</math> the emission will also be at angular frequency <math>\omega</math>. ...would be f ≈ 0.16 MHz. For a 100 ps lifetime, a good frequency would be f ≈ 1.6 GHz. Note that, unlike TCSPC, long as well as short lifetimes (the30 KB (4,308 words) - 17:00, 12 September 2017
- ...yle="text-align: center;" | <span style="color:crimson; font-size:200%">'''Förster Resonance Energy Transfer and Beyond</span> <br><span style="color:b == <span style="color:crimson;">'''Interatomic Coulomb Decay and Förster Resonance Energy Transfer in Dielectric Environments'''</span> ==11 KB (1,596 words) - 01:30, 12 January 2020
- [16] Hainschwang T; Karampelas S Fritsch, E, Notari F, Luminescence spectroscopy and microscopy applied to study gem materials: a [21] King G E, Guralnik B, Valla P G, Herman, F, Trapped-charge thermochronometry and thermometry: A status review, Chemica7 KB (907 words) - 08:39, 22 May 2021
- ...J S, Schelly R C, Smith W L, Davis M P Tchernov D, Pieribone V A, Gruber D F (2014). Fontaneto D, ed. The covert world of fish biofluorescence: A phylog ...xner A J, Schleifenbaum F., Schulte G, Siebeck U E, Sprenger D, Wucherer M F,. Red fluorescence in reef fish: a novel signalling mechanism? BMC Ecology6 KB (837 words) - 08:39, 22 May 2021
- ...en T; Malkamäki M, Eskola K O, Kotlov A; Carlson S; Welter E; Brito Hermi F, Bettinelli M, Jungner H; Hölsä J, The Bologna Stone: history's first per [11] J M Vanderkooi, G Maniara, T J Green, D F Wilson, An optical method for measurement of dioxygen concentration based u4 KB (631 words) - 08:40, 22 May 2021
- * S. Speiser and F.L. Chisena: "Optical bistability in dye molecules", J. Chem. Phys. 89, 7259 * F. Remacle, S. Speiser and R.D. Levine: "Intermolecular and intramolecular lo8 KB (1,148 words) - 16:52, 17 November 2017
- ...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 (9,915 words) - 15:31, 16 December 2017
- <math>E=\frac{\sum_{i=1}^{m}k_{ET}^{(i)}}{\sum_{i=1}^{m}k_{ET}^{(i)}+k_{F}}</math> <math>k_{ET}^{(i)}=k_{F}\left ( \frac{R_{0}}{r} \right )^{6}</math>233 bytes (45 words) - 16:40, 7 April 2018
- ...resonance energy transfer (FRET)[[http://www.lumipedia.org/index.php?title=F%C3%B6rster_Resonance_Energy_Transfer]], excited-state intramolecular proton 16. A. Treibs and F.-H. Kreuzer, Justus Liebigs Ann. Chem.,1968, 718, 208.44 KB (6,295 words) - 09:24, 12 January 2020
- ...when it is used to catalyze the oscillating Belousov-Zhabotinski reaction [F. Bolletta, V. Balzani,J. Am. Chem. Soc.1982, 104, 4250]. Later on, [Ru(bpy) ...e basic conceptual framework of Supramolecular Photochemistry [V. Balzani, F. Scandola, Supramolecular Photochemistry,Horwood, Chichester, 1991], foreca12 KB (1,730 words) - 17:46, 7 November 2019
- Institut für Physik, Humboldt-Universität zu Berlin, Newtonstraße 15, D-12489 Berli The variant of EET which refers to molecules is connected with the name of Förster. Respective rates display the famous <math>\frac{1}{R^{6}}</math>- d46 KB (7,222 words) - 12:46, 14 April 2019
- <big>Institut für Physik, Humboldt-Universität zu Berlin, Newtonstraße 15, D-12489 Berli The variant of EET which refers to molecules is connected with the name of Förster. Respective rates display the famous <math>\frac{1}{R^{6}}</math>- d46 KB (7,240 words) - 23:22, 21 January 2020
