Uncertainty evaluation of photoluminescence quantum yield measurement in an integrating hemisphere-based instrument

We present an integrating hemisphere-based (i.e., a variant of integrating spheres) implementation of the indirect illumination method for absolute photoluminescence quantum yield measurements, which is a recommended method in the international standard IEC 62607-3-1:2014. We rigorously formulated a...

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Bibliographic Details
Published in:Applied optics (2004) 2023-06, Vol.62 (18), p.4805
Main Authors: Yoo, Jaekak, Gene, Jinhwa, Kim, Jaeseok, Park, Seung-Nam, Lim, Seong Chu, Jeong, Mun Seok, Lee, Tae Geol, Park, Seongchong
Format: Article
Language:English
Subjects:
Discharge lamps
Integrating spheres
Irradiance
Photoluminescence
Radiant flux
Uncertainty
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Summary:We present an integrating hemisphere-based (i.e., a variant of integrating spheres) implementation of the indirect illumination method for absolute photoluminescence quantum yield measurements, which is a recommended method in the international standard IEC 62607-3-1:2014. We rigorously formulated a mathematical model and a measurement procedure for the absolute photoluminescence quantum yield measurement in the integrating hemisphere-based system. The measurement system was calibrated using an Hg-Ar discharge lamp and spectral irradiance standard lamps for wavelength and relative spectral radiant flux scales, respectively. Furthermore, we identified and evaluated uncertainty components involved in the photoluminescence quantum yield (PLQY) measurement. To validate our measurement system, we applied it to the two de facto standard dyes: quinine bisulfate (QBS) and fluorescein (FLS). Consequently, their PLQY values were determined to be 0.563±0.024 ( k =2) and 0.876±0.032 ( k =2) for, respectively, QBS and FLS, which are consistent with previous reports.
ISSN:1559-128X
2155-3165
DOI:10.1364/AO.490222