| 1. | Examples of commonly used fluorophores are fluorescein or rhodamine.
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| 2. | Newer rhodamine derivatives, such as photostability or higher fluorescence intensity are needed.
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| 3. | Rhodamine B is tunable around 610 nm when used as a laser dye.
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| 4. | Replacing resorcinol by N, N-diethylaminophenol in this reaction gives rhodamine B:
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| 5. | The laser dye rhodamine 123 is also used in biochemistry to inhibit mitochondrion function.
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| 6. | The intensity fluctuates as Rhodamine 6G moves in and out of the focal volume.
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| 7. | Rhodamine 6G usually comes in three different forms.
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| 8. | Other historically common fluorophores are derivatives of rhodamine ( TRITC ), coumarin, and cyanine.
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| 9. | This approach has also been used to prepare oximes of fluorodeoxyglucose using peptides, folic acid and rhodamine
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| 10. | For example, fluorophores such as rhodamine have been coupled onto norbonene, and reacted with tetrazine in living systems.
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