1. Surprising variations in the rate of ring opening for a series of rhodamine lactams with similar equilibrium endpoints
- Author
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Farihah M. Haque, Ken D. Shimizu, Amanda Faint, Kevin Yehl, Michael J. Maher, and Clifton J. Stephenson
- Subjects
Metals and Alloys ,Substituent ,chemistry.chemical_element ,Condensed Matter Physics ,Ring (chemistry) ,Photochemistry ,Nitrogen ,Surfaces, Coatings and Films ,Electronic, Optical and Magnetic Materials ,Rhodamine ,Absorbance ,chemistry.chemical_compound ,chemistry ,Amide ,Materials Chemistry ,Lactam ,Trifluoroacetic acid ,Electrical and Electronic Engineering ,Instrumentation - Abstract
Rhodamine amides are known to function as an important platform for molecular probe formation. The use of rhodamine-based probes has focused on the equilibrium between the off to on opening of the lactam form to the amide form. Herein, a series of four structurally similar rhodamine lactam derivatives is studied to show that the rate of conversion from the lactam form to the amide form can vary greatly ( 12 h) and that the rate trend is different from the trend for the absorbance measured at equilibrium. Slow or varying rates of ring opening for structurally similar rhodamine derivatives could produce inaccurate results. Rates were studied with both trifluoroacetic acid (TFA) and iron III. The rate of conversion changed depending on the structure of the substituent attached to the lactam nitrogen. Interestingly the rate of conversion varied even for compounds with similar absorbance at equilibrium. This work will help with the development of more effective rhodamine-based molecular probes.
- Published
- 2014
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