Journal
PHOTOCHEMICAL & PHOTOBIOLOGICAL SCIENCES
Volume 7, Issue 9, Pages 1003-1010Publisher
SPRINGERNATURE
DOI: 10.1039/b804333g
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Two recent advances in optoelectronics, namely novel near-IR sensitive photomultipliers and inexpensive yet powerful diode-pumped solid-state lasers working at kHz repetition rate, enable the time-resolved detection of singlet oxygen (O-2(a(1)Delta(g))) phosphorescence in photon counting mode, thereby boosting the time-resolution, sensitivity, and dynamic range of this well-established detection technique. Principles underlying this novel approach and selected examples of applications are provided in this perspective, which illustrate the advantages over the conventional analog detection mode.
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