Narendra M. Raut scite author profile

The determination of lanthanides by Inductively Coupled Plasma Mass Spectrometry (ICP-MS) is complicated by several spectral overlaps from M + , MO + or MOH + ions formed in the ICP. Especially, it is essential to avoid the spectral interferences from lighter lanthanide and Ba polyatomic ions on middle or heavier lanthanides. To tackle this problem, we have developed a mathematical correction method, which reduces all the spectral overlaps from oxide species of Pr, Nd, Ce and Sm over Gd, Tb, Dy and Ho, and Gd, Tb over Yb and Lu. It can also successfully correct the oxide and hydroxide interference of Ba over Eu. The effectiveness of the proposed the mathematical correction scheme is demonstrated for the USGS Standard Rock samples AGV-1 and G-2. The results show that the experimental data obtained by applying the mathematical correction scheme for lanthanides is in good agreement with the reported values, using pneumatic and ultrasonic nebulisation methods, for their ICP-MS analysis.

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Zero-valent metal incorporated cellulose acetate oxygen scavenging system for packaging of liquid food

Dey

Sengupta²,

Raut³

et al. 2023

Biocatalysis and Agricultural Biotechnology

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Paper Chromatographic Separation of Plant Pigments a New Approach by using Akshya-Swagatika Solvent and Mobile Chromatogram Detection System (MCDS)

Mishra¹,

Padhan²,

Behera³

et al. 2021

Int. j. res. appl. sci. biotechnol.

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Chromatography is a term that refers to a group of laboratory techniques for separating mixtures. Chromatography works on the premise of solute partitioning between two phases or solvents. The technique of paper chromatography is commonly used to separate plant pigments based on their molecular weight. Plant pigments include chlorophyll-b, chlorophyll-a, carotenoid, and xanthophyll, which all have various molecular weights, colours, and absorption maxima. In this study, an attempt was made to see how a new solvent (Akshya-Swagatika solvent) can be used to separate plant pigments using paper chromatography, as well as a new detection method developed by us known as Mobile chromatogram detection system (MCDS) that can be used for compound identification and photographing. As shown in the table and photograph, pigments are separated by molecular weight and band colour, with carotenoid having the highest RF value and chlorophyll-b having the lowest. It was obvious that the Akshya-Swagatika solution could be used to separate plant pigments in paper chromatography. Photograph taken with a mobile chromatogram detection system that is much clearer than normal one. In developing countries, both solvent and detection systems are useful in explaining paper chromatography in a cost-effective manner. The MCDS detection system is cost-effective fast method which replaces traditional sophisticated detection procedures.

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Narendra M. Raut

Determination of lanthanides in rock samples by inductively coupled plasma mass spectrometry using thorium as oxide and hydroxide correction standard

Uncertainty propagation through correction methodology for the determination of rare earth elements by quadrupole based inductively coupled plasma mass spectrometry

Comparative evaluation of three α-hydroxycarboxylic acids for the separation of lanthanides by dynamically modified reversed-phase high-performance liquid chromatography

Separation and determination of lanthanides, thorium and uranium using a dual gradient in reversed-phase liquid chromatography

Direct determination of lanthanides in simulated irradiated thoria fuels using reversed-phase high-performance liquid chromatography

Mathematical Correction for Polyatomic Isobaric Spectral Interferences in Determination of Lanthanides by Inductively Coupled Plasma Mass Spectrometry

Zero-valent metal incorporated cellulose acetate oxygen scavenging system for packaging of liquid food

Paper Chromatographic Separation of Plant Pigments a New Approach by using Akshya-Swagatika Solvent and Mobile Chromatogram Detection System (MCDS)

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