MIRROR-BASED X-RAY FLUORESCENCE MICROPROBES AT THE ADVANCED PHOTON
INTRODUCTION TO FLUORESCENCE (two-photon, three steps, phase incoherent process)
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INTRODUCTION TO FLUORESCENCE (two-photon, three steps, phase incoherent process) •Einstein’s coefficients, dipole transitions. • Experimental setup •T-configuration •Jablonsky diagram •Franck-Condon principle, reflection rule and Stokes shift •Lifetime and quantum yield •Fluorescence quenching (collisional) •London’s theory of molecular forces •RET resonant Energy Transfer •FRAP (Fluorescence Recovery after Photo Bleaching
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INTRODUCTION TO FLUORESCENCE (two-photon, three steps, phase incoherent process). Einstein’s coefficients, dipole transitions. Experimental setup T-configuration Jablonsky diagram Franck-Condon principle, reflection rule and Stokes shift Lifetime and quantum yield - PowerPoint PPT Presentation
Transcript of INTRODUCTION TO FLUORESCENCE (two-photon, three steps, phase incoherent process)
INTRODUCTION TO FLUORESCENCE(two-photon, three steps, phase incoherent process)
•Einstein’s coefficients, dipole transitions.• Experimental setup•T-configuration•Jablonsky diagram•Franck-Condon principle, reflection rule and Stokes shift•Lifetime and quantum yield•Fluorescence quenching (collisional) •London’s theory of molecular forces
•RET resonant Energy Transfer•FRAP (Fluorescence Recovery after Photo Bleaching
Experimental setup
Gregorio Weber’s T-configuration
Stokes shift
Protein Intrinsic Fluorophores
stati di tripletto e di singoletto
Kasha’s rule: emission spectra are independent of the excitation wavelength.
Quantum yield Q and lifetime τ
Γ=spectral emissivity, knr rate of non radiative transitions
teoricamente
Fluorescence Quenching
Stern-Volmer equation
Collisional quenching
Fluorescence Anisotropy
anisotropy
polarization
What is lost in steady state measurements?
Green-fluorescent proteins GFP
Non radiative energy transfer (RET)
Center for fluorescence spectroscopy (J. Lakowicz) http://cfs.umbi.umd.edu/ISS http://www.iss.com/Fluorescence foundation http://www.fluorescence-foundation.org/Enrico Gratton’s homepage http://www.lfd.uci.edu/~gratton/Laboratory of fluorescence dynamicsGregorio Weber http://www.lfd.uci.edu/weber/
CORSO DI MICROSCOPIA OTTICA DI CLEGGhttp://online.physics.uiuc.edu/courses/phys598om/spring12/
![[377] Two-photon Excitation Fluorescence Microscopy](https://static.fdocuments.net/doc/165x107/577d1dd81a28ab4e1e8d18f5/377-two-photon-excitation-fluorescence-microscopy.jpg)
