Chemometrics study of the kinetics of the Griess reaction

Shariati-Rad, Masoud; Irandoust, Mohsen; Haghighi, Maryam

doi:10.1002/cem.2577

Cited by 6 publications

(2 citation statements)

References 41 publications

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“…Interestingly, after adding N -(1-naphthyl)ethylenediamine dihydrochloride to the reaction solution of m -CDs and NO 2 – , we observed that the mixed solution immediately changed from colorless to magenta, and the absorbance of the magenta dye was positive in proportion to the concentration of NO 2 – , as shown in the inset of Figure D. These data confirmed the diazonium reaction between m -CDs and NO 2 – under 0.1 M H 2 SO 4 and produced diazonium salt. − The diazonium salt was an electron-withdrawing group, and the electron cloud of the n-electron lone pair was not coplanar with the π-electron cloud on the benzene ring, and the transition from n to π* was a forbidden process. The probability of an intersystem crossing transition between S 1 and T 1 was large, inducing the fluorescence quenching of m -CDs.…”

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confidence: 65%

Ratiometric Fluorescent Hydrogel Test Kit for On-Spot Visual Detection of Nitrite

et al. 2019

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In this work, we proposed a new method based on carbon dots (named m-CDs) for selective and efficient detection of nitrite (NO2 –), which was based on the interaction between the amine group of m-CDs and NO2 – via a diazo reaction that produced diazonium salts and induced the fluorescence quenching of m-CDs. The concentration of NO2 – shows a good linear relationship with a quenched fluorescence intensity from 0.063 to 2.0 μM (R 2 = 0.996) with a detection limit of 0.018 μM. In addition, a ratiometric fluorescence probe (m-CDs@[Ru(bpy)3]2+) was constructed via electrostatic interaction by introducing Ru(bpy)3Cl2·6H2O as an internal reference fluorescent reagent. Interestingly, a transition of the fluorescent color of the ratiometric probe from cyan to red could be visually observed upon increasing the concentration of NO2 –. Based on these findings, a ratiometric fluorescent-based portable agarose hydrogel test kit was fabricated and applied for on-spot assessment of NO2 – content within 10 min. As far as we know, this is the first ratiometric fluorescent sensor for visual detection of NO2 –. It has broad application prospects in environmental monitoring and food safety assessment.

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Section: Resultssupporting

confidence: 65%

Ratiometric Fluorescent Hydrogel Test Kit for On-Spot Visual Detection of Nitrite

et al. 2019

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“…Traditionally, the Griess reagents, SUL and NED, are added sequentially for nitrite analysis simply because the Griess reaction involves several different steps. , Sequential addition allows diazonium to form first before the addition of the NED reagent to elicit the pink color; the t 90% value for the PAD reaction is normally <20 s, and the maximum absorbance is obtained within 4 min at room temperature (Figure , right). However, while using premixed reagents, PAD formation becomes much slower, with a t 90% of >170 s, and the complete reaction may take as long as 20 min.…”

Section: Resultsmentioning

confidence: 99%

Determination of Nitrate in Natural Waters by Vanadium Reduction and the Griess Assay: Reassessment and Optimization

Pai

Mei

et al. 2021

ACS EST Water

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An accurate, precise, simple, and efficient spectrophotometric method has been developed for the determination of nitrate concentrations in natural waters by using premixed vanadium and the Griess reagents. We have systematically reassessed and optimized several key parameters influencing nitrate to nitrite reduction and pink azo dye formation, which include the order of reagent addition, reagent concentrations, heating temperatures, and cooling procedures. Samples added with the premixed reagents are heated gradually in a 50 °C water bath for 25−30 min followed by a quick cooling step to fix the final yield. Both nitrite and nitrate produce a stable and equal molar absorptivity of ∼50000 M −1 cm −1 under the optimized condition, without showing a significant salt effect. With a detection limit of 0.2 μM and a precision of 1% (relative standard deviation) for nitrate at 5−50 μM, this simple and reliable protocol provides an alternative to the traditional Cd−Cu reduction method for routine nitrate analysis in natural waters and other aqueous samples.

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Rapid Kinetic Modeling of Reaction Systems from Spectroscopic Data in Flow Reactors

Veeramani,

Doss,

Narasimhan

et al. 2024

Chemical Engineering Science

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Chemometrics study of the kinetics of the Griess reaction

Cited by 6 publications

References 41 publications

Ratiometric Fluorescent Hydrogel Test Kit for On-Spot Visual Detection of Nitrite

Ratiometric Fluorescent Hydrogel Test Kit for On-Spot Visual Detection of Nitrite

Determination of Nitrate in Natural Waters by Vanadium Reduction and the Griess Assay: Reassessment and Optimization

Rapid Kinetic Modeling of Reaction Systems from Spectroscopic Data in Flow Reactors

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