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PowerPoint Presentation - Intro to Optics

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Title: PowerPoint Presentation - Intro to Optics Author: Michael A. Rea Last modified by: Michael Rea Created Date: 3/19/2001 5:08:04 PM Document presentation format – PowerPoint PPT presentation

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Title: PowerPoint Presentation - Intro to Optics

1
George Stokes (1819 - 1903)
Max Born (1882 - 1970)
E. Schroedinger (1887 - 1961)
2
Historical Perspective

Fluorescence described by Sir George G.
Stokes
1913 Fluorescence microscope developed
Heinrich Lehmann
August Köhler Carl Reichert (Zeiss)
1930s Secondary fluorescence technique
Max Haitinger
1945 Quinine based fluorophore
John Hershel
1950s Indirect Immunofluorescence
Albert Coons Nathan Kaplan

3
Solar Spectrum
Frauenhofer Lines (1814)
Kurucz et al (1984)
4
Visible Spectrum
Solar Spectrum
H2
He2
O2
C
N2
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 493 535 0.46 Benzene Ethanol 248
300-350 0.04 Chlorophyll-A Ethanol 440 685 0.23
Eosin Water 521 544 0.16 Fluorescein Water 4
37 515 0.92 Rhodamine-B Ethanol 555 627 0.97
17
Solvent Effects Triplet Blinking Fluorescence
Quenching Photobleaching
18
Transition to the Dark Side

Triplet Blinking
stable triplet state
S1 T1 due to solvent
halogens
transition metals

19
Quenching
Collision with solutes Resonance energy transfer
Energy transferred to non-fluorescent solute
molecule
20
Death of a Fluor
Photobleaching T1 is highly reactive O2 likes
T1 electrons Oxygen radicals are highly
reactive cytotoxic
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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