George Stokes (1819 - 1903)

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George Stokes (1819 - 1903). Max Born (1882 - 1970). E. Schroedinger (1887 - 1961). Historical Perspective. Fluorescence described by Sir George G. Stokes 1913 Fluorescence microscope developed Heinrich Lehmann August Köhler & Carl Reichert (Zeiss) - PowerPoint PPT Presentation

Transcript of George Stokes (1819 - 1903)

George Stokes(1819 - 1903)

Max Born(1882 - 1970)

E. Schroedinger(1887 - 1961)

1853 Fluorescence described by Sir George G. Stokes

1913 Fluorescence microscope developedHeinrich Lehmann

August Köhler & Carl Reichert (Zeiss)

1930s Secondary fluorescence techniqueMax Haitinger

1945 Quinine based fluorophore John Hershel

1950s Indirect Immunofluorescence Albert Coons & Nathan Kaplan

Historical Perspective

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Solar Spectrum

Kurucz et al (1984)“Frauenhofer

Lines”(1814)

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Visible Spectrum

Solar Spectrum

H2

He2

O2

N2

C

Si

(Kirchhoff , Bunsen, others; 1860s)

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Fluorspar

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Quantum Yield (photons emitted / photons absorbed)

Dye Solvent Exc Em QY

Acridine Orange Ethanol 493 5350.46Benzene Ethanol 248 300-350 0.04Chlorophyll-A Ethanol 440 685 0.23Eosin Water 521 544

0.16 Fluorescein Water437 515 0.92 Rhodamine-B Ethanol555 627 0.97

Solvent Effects

Triplet Blinking

Fluorescence Quenching

Photobleaching

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Triplet Blinking- stable triplet state- S1 T1 due to solvent

-halogens-transition metals

Transition to the Dark Side

Collision with solutes

Resonance energy transfer

Quenching

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Energy transferredto non-fluorescentsolute molecule

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Photobleaching

T1 is highly reactive

O2 likes T1 electrons

Oxygen radicals are highly reactive & cytotoxic

Death of a Fluor

O2 or other solute New compound(disrupted conjugation)

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Reflected Light (Epifluorescence) Microscopy

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Transmission Fluorescence Microscopy

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AOTF

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What to look for in a fluorophore

Fluorescence Spectrum

Quantum Yield

Extinction Coefficient

Stability (Photobleaching)

Sensitivity to Environment

Toxicity

Reactivity

Solubility

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