Excitation of fluorescence decay using a 265 nm pulsed light-emitting diode: Evidence for aqueous phenylalanine rotamers

McGuinness, Colin D. and Macmillan, Alexander M. and Sagoo, Kulwinder and McLoskey, David and Birch, David J. S. (2006) Excitation of fluorescence decay using a 265 nm pulsed light-emitting diode: Evidence for aqueous phenylalanine rotamers. Applied Physics Letters, 89 (6). 063901. ISSN 0003-6951 (https://doi.org/10.1063/1.2245441)

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Abstract

The authors describe the characteristics and application of a 265 nm AlGaN light-emitting diode (LED) operated at 1 MHz repetition rate, 1.2 ns pulse duration, 1.32 mu W average power, 2.3 mW peak power, and similar to 12 nm bandwidth. The LED enables the fluorescence decay of weakly emitting phenylalanine to be measured routinely, even in dilute solution. For pH of 6-9.2, the authors find evidence for a biexponential rather than monoexponential decay, providing direct evidence for the presence of phenylalanine rotamers with a photophysics closer to the other two fluorescent amino acids tryrosine and tryptophan than has previously been reported. (c) 2006 American Institute of Physics.

ORCID iDs

McGuinness, Colin D., Macmillan, Alexander M., Sagoo, Kulwinder, McLoskey, David and Birch, David J. S. ORCID logoORCID: https://orcid.org/0000-0001-6400-1270;