Novel optical oxygen sensing by phosphorescence quenching of palladium porphyrin self-assembled film on alumina plate

Amao, Yutaka; Asai, Keisuke; Okura, Ichiro

doi:10.1002/(sici)1099-1409(200003)4:2<179::aid-jpp178>3.0.co;2-a

Cited by 20 publications

(1 citation statement)

References 24 publications

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“…These analytes were chosen because of their biological significance and due to the need for temperature compensation of oxygen sensitive luminophores [4-15]. Porphyrins are attractive for luminescent oxygen sensing due to their high sensitivity, large Stokes’ shift, good photostability, long lifetimes, and emission in the red to NIR wavelengths [36-44]. Platinum(II) octaethylporphyrin (PtOEP) was chosen because of its excitation and emission peaks close to 400 and 650 nm, respectively [8, 45].…”

Section: Methodsmentioning

confidence: 99%

Temperature Compensation of Oxygen Sensing Films Utilizing a Dynamic Dual Lifetime Calculation Technique

Collier

McShane

2014

IEEE Sensors J.

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With advances to chemical sensing, methods for compensation of errors introduced by interfering analytes are needed. In this work, a dual lifetime calculation technique was developed to enable simultaneous monitoring of two luminescence decays. Utilizing a windowed time-domain luminescence approach, the response of two luminophores is separated temporally. The ability of the dual dynamic rapid lifetime determination (DDRLD) approach to determine the response of two luminophores simultaneously was investigated through mathematical modeling and experimental testing. Modeling results indicated that lifetime predictions will be most accurate when the ratio of the lifetimes from each luminophore is at least three and the ratio of intensities is near unity. In vitro experiments were performed using a porphyrin that is sensitive to both oxygen and temperature, combined with a temperature-sensitive inorganic phosphor used for compensation of the porphyrin response. In static experiments, the dual measurements were found to be highly accurate when compared to single-luminophore measurements—statistically equivalent for the long lifetime emission and an average difference of 2% for the short lifetimes. Real-time testing with dynamic windowing was successful in demonstrating dual lifetime measurements and temperature compensation of the oxygen sensitive dye. When comparing the actual oxygen and temperature values with predictions made using a dual calibration approach, an overall difference of less than 1% was obtained. Thus, this method enables rapid, accurate extraction of multiple lifetimes without requiring computationally intense curve fitting, providing a significant advancement toward multi-analyte sensing and imaging techniques.

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Section: Methodsmentioning

confidence: 99%

Temperature Compensation of Oxygen Sensing Films Utilizing a Dynamic Dual Lifetime Calculation Technique

Collier

McShane

2014

IEEE Sensors J.

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Fluorescence Sensing and Imaging Using Pressure-Sensitive Paints and Temperature-Sensitive Paints

Stich

Wolfbeis

Standardization and Quality Assurance in Fluorescence Measurements I

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Design and Synthesis of Supramolecular Polymer Network Equipped with Pd-porphyrin: An Efficient and Recoverable Heterogeneous Catalyst for C–C Coupling Reactions

Hamid

Mouradzadegun

2020

Catal Lett

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The present study aimed to explain a modern and attractive protocol for synthesizing hypercross-linked conjugated supramolecular polymer network contains palladium(II) porphyrin based on calix[4]resorcinarene as an efficient heterogeneous catalyst. Thus, characterizations were conducted by using spectroscopic methods including powder X-ray diffraction, energy dispersive spectroscopy, scanning electron microscopy, FT-IR, and UV-Vis spectroscopy. In addition, catalytic activity of Pd-porphyrin@polymer was evaluated for C-C coupling reactions. The catalyst demonstrated an excellent activity, which is highly potential for forming new bond under mild conditions.

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Novel optical oxygen sensing by phosphorescence quenching of palladium porphyrin self-assembled film on alumina plate

Cited by 20 publications

References 24 publications

Temperature Compensation of Oxygen Sensing Films Utilizing a Dynamic Dual Lifetime Calculation Technique

Temperature Compensation of Oxygen Sensing Films Utilizing a Dynamic Dual Lifetime Calculation Technique

Fluorescence Sensing and Imaging Using Pressure-Sensitive Paints and Temperature-Sensitive Paints

Design and Synthesis of Supramolecular Polymer Network Equipped with Pd-porphyrin: An Efficient and Recoverable Heterogeneous Catalyst for C–C Coupling Reactions

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