Filter Fluorometer Calibration Without the Fluorometer

Caitlyn M. English; Zechariah B. Kitzhaber; Kazi Ragib I. Sanim; Nikolaos Vitzilaios; Michael E. Hodgson; Tammi L. Richardson; Michael L. Myrick

doi:10.1177/00037028231181593

Filter Fluorometer Calibration Without the Fluorometer

Caitlyn M. English
, Zechariah B. Kitzhaber
, Kazi Ragib I. Sanim
, Nikolaos Vitzilaios
, Michael E. Hodgson
, Tammi L. Richardson
, Michael L. Myrick

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

We recently described a lightweight, low-power, waterproof filter fluorometer using a 180° backscatter geometry for chlorophyll-a (chl-a) detection. Before it was constructed it was modeled to ensure it would have satisfactory performance. This manuscript repeats the modeling process that allows the calibration slope and detection limit for a fluorescent analyte in water to be estimated from system component performance and conventional spectrofluorometry alone. These values are validated by comparison to the experimental result of calibration from the completed instrument. Our model yields a calibration slope of 8.22 mV-L/µg for dissolved chl-a, consistent with the experimentally measured slope of 8.21 mV-L/µg. The detection limit modeled from this slope and an estimate of the baseline noise of the instrument was 0.15 µg/L chl-a, while the measured detection limit using real blank samples was 0.18 µg/L, in 0.1 s differential measurements.

Original language	English
Pages (from-to)	1053-1063
Number of pages	11
Journal	Applied Spectroscopy
Volume	77
Issue number	9
DOIs	https://doi.org/10.1177/00037028231181593
State	Published - Sep 2023
Externally published	Yes

Funding

The authors acknowledge support for this research through the University of South Carolina ASPIRE II Grant program. We greatly appreciate Mr. Allen Frye, with the Mechanical Prototyping Facility at the University of South Carolina, for providing all necessary modifications in the construction of our fluorometer. We also thank Mr. Jason Williamson and his colleagues at Thorlabs, Inc. (headquarters in Newton, New Jersey) for mechanical hardware and detector donations. We also thank Gary Bennett and Daniel Rucker of the USC Facilities welding shop for support with aluminum welding of the optical system mounts.

Keywords

Fluorescence
Raman
aberrations
calibration
chlorophyll
fluorometer
instrumentation
modeling
polarization
water

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10.1177/00037028231181593

Cite this

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title = "Filter Fluorometer Calibration Without the Fluorometer",

abstract = "We recently described a lightweight, low-power, waterproof filter fluorometer using a 180° backscatter geometry for chlorophyll-a (chl-a) detection. Before it was constructed it was modeled to ensure it would have satisfactory performance. This manuscript repeats the modeling process that allows the calibration slope and detection limit for a fluorescent analyte in water to be estimated from system component performance and conventional spectrofluorometry alone. These values are validated by comparison to the experimental result of calibration from the completed instrument. Our model yields a calibration slope of 8.22 mV-L/µg for dissolved chl-a, consistent with the experimentally measured slope of 8.21 mV-L/µg. The detection limit modeled from this slope and an estimate of the baseline noise of the instrument was 0.15 µg/L chl-a, while the measured detection limit using real blank samples was 0.18 µg/L, in 0.1 s differential measurements.",

keywords = "Fluorescence, Raman, aberrations, calibration, chlorophyll, fluorometer, instrumentation, modeling, polarization, water",

author = "English, \{Caitlyn M.\} and Kitzhaber, \{Zechariah B.\} and Sanim, \{Kazi Ragib I.\} and Nikolaos Vitzilaios and Hodgson, \{Michael E.\} and Richardson, \{Tammi L.\} and Myrick, \{Michael L.\}",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2023.",

year = "2023",

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doi = "10.1177/00037028231181593",

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AU - English, Caitlyn M.

AU - Kitzhaber, Zechariah B.

AU - Sanim, Kazi Ragib I.

AU - Vitzilaios, Nikolaos

AU - Hodgson, Michael E.

AU - Richardson, Tammi L.

AU - Myrick, Michael L.

N1 - Publisher Copyright: © The Author(s) 2023.

PY - 2023/9

Y1 - 2023/9

N2 - We recently described a lightweight, low-power, waterproof filter fluorometer using a 180° backscatter geometry for chlorophyll-a (chl-a) detection. Before it was constructed it was modeled to ensure it would have satisfactory performance. This manuscript repeats the modeling process that allows the calibration slope and detection limit for a fluorescent analyte in water to be estimated from system component performance and conventional spectrofluorometry alone. These values are validated by comparison to the experimental result of calibration from the completed instrument. Our model yields a calibration slope of 8.22 mV-L/µg for dissolved chl-a, consistent with the experimentally measured slope of 8.21 mV-L/µg. The detection limit modeled from this slope and an estimate of the baseline noise of the instrument was 0.15 µg/L chl-a, while the measured detection limit using real blank samples was 0.18 µg/L, in 0.1 s differential measurements.

AB - We recently described a lightweight, low-power, waterproof filter fluorometer using a 180° backscatter geometry for chlorophyll-a (chl-a) detection. Before it was constructed it was modeled to ensure it would have satisfactory performance. This manuscript repeats the modeling process that allows the calibration slope and detection limit for a fluorescent analyte in water to be estimated from system component performance and conventional spectrofluorometry alone. These values are validated by comparison to the experimental result of calibration from the completed instrument. Our model yields a calibration slope of 8.22 mV-L/µg for dissolved chl-a, consistent with the experimentally measured slope of 8.21 mV-L/µg. The detection limit modeled from this slope and an estimate of the baseline noise of the instrument was 0.15 µg/L chl-a, while the measured detection limit using real blank samples was 0.18 µg/L, in 0.1 s differential measurements.

KW - Fluorescence

KW - Raman

KW - aberrations

KW - calibration

KW - chlorophyll

KW - fluorometer

KW - instrumentation

KW - modeling

KW - polarization

KW - water

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DO - 10.1177/00037028231181593

M3 - Article

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SN - 0003-7028

VL - 77

SP - 1053

EP - 1063

JO - Applied Spectroscopy

JF - Applied Spectroscopy

IS - 9

ER -

Filter Fluorometer Calibration Without the Fluorometer

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