S. Saman S. J. Nazari scite author profile

S. Saman S. J. Nazari

5Publications

73Citation Statements Received

82Citation Statements Given

How they've been cited

152

How they cite others

205

Affiliations

University of Mazandaran, California State University, Northridge

Publications

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Separation optimization of quercetin, hesperetin and chrysin in honey by micellar liquid chromatography and experimental design

Hadjmohammadi¹,

Nazari²

2010

J of Separation Science

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The chemometrics approach was applied for the separation optimization of flavonoid markers (quercetin, hesperetin and chrysin) in honey using micellar liquid chromatography (MLC). The investigated method combines SPE of flavonoids from honey using C(18) cartridge and their separation and quantification by micellar liquid chromatography. A two level full factorial design was carried out to evaluate the effect of four experimental factors including concentration of SDS, alkyl chain length of the alcohol used as the organic modifier (N), volume percentage of the organic modifier (V(m)) and volume percentage of acetic acid (AcOH) in mobile phase on analytes retention times. Experiments for analytes retention times modeling and optimization of separation were performed according to central composite design. Multiple linear regression method was used for the construction of the best model based on experimental retention times. Pareto optimal method was used to find suitable compatibility between resolution and analysis time of analytes in honey. The optimum mobile phase composition for separation and determination of analytes in honey were [SDS]=0.124 mol/L; 7.8% v/v ethanol and 5.0% v/v AcOH. Limits of detection and linear range of flavonoid markers were 0.0079-0.0126, 0.05-50.0 mg/L, respectively.

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Effect of the bread-making process on zearalenone levels

Heidari

Milani

Nazari

2014

Food Additives & Contaminants: Part A

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The effects of the bread-making process including fermentation with Saccharomyces cerevisiae and lactic acid bacteria (Lactobacillus casei, Lactobacillus rhamnosus, Lactobacillus acidophilus and Lactobacillus fermentum) and baking at 200°C on zearalenone (ZEA) levels were investigated. Standard solutions of ZEA were added to flour and then loaves of bread were prepared. Sourdough and three types of yeast including active dry yeast, instant dry yeast and compressed yeast were used for the fermentation of dough. ZEA levels in flour, dough and bread were determined by HPLC with fluorescence detection after extraction and clean-up on an immunoaffinity column. The highest reduction in levels of ZEA was found in the first fermentation (first proof), while the lowest reduction was observed in the baking stage. In addition, the results showed that compressed yeast had the maximum reduction potential on ZEA levels even at the baking stage.

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Determination of Flavonoid Markers in Honey with SPE and LC using Experimental Design

Hadjmohammadi

Nazari

Kamel

2009

Chroma

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Simultaneous isocratic separation of phenolic acids and flavonoids using micellar liquid chromatography

Hadjmohammadi

Nazari

2013

J of Separation Science

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The simultaneous isocratic separation of a mixture of five phenolic acids and four flavonoids (two important groups of natural polyphenolic compounds with very different polarities) was investigated in three different RPLC modes using a hydro-organic mobile phase, and mobile phases containing SDS at concentrations below and above the critical micellar concentration (submicellar LC and micellar LC (MLC), respectively). In the hydro-organic mode, methanol and acetonitrile; in the submicellar mode methanol; and in the micellar mode, methanol and 1-propanol were examined individually as organic modifiers. Regarding the other modes, MLC provided more appropriate resolutions and analysis time and was preferred for the separation of the selected compounds. Optimization of separation in MLC was performed using an interpretative approach for each alcohol. In this way, the retention of phenolic acids and flavonoids were modeled using the retention factors obtained from five different mobile phases, then the Pareto optimality method was applied to find the best compatibility between analysis time and quality of separation. The results of this study showed some promising advantages of MLC for the simultaneous separation of phenolic acids and flavonoids, including low consumption of organic solvent, good resolution, short analysis time, and no requirement of gradient elution.

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Water-contained surfactant-based vortex-assisted microextraction method combined with liquid chromatography for determination of synthetic antioxidants from edible oil

Amlashi

Hadjmohammadi

Nazari

2014

Journal of Chromatography A

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S. Saman S. J. Nazari

Separation optimization of quercetin, hesperetin and chrysin in honey by micellar liquid chromatography and experimental design

Effect of the bread-making process on zearalenone levels

Determination of Flavonoid Markers in Honey with SPE and LC using Experimental Design

Simultaneous isocratic separation of phenolic acids and flavonoids using micellar liquid chromatography

Water-contained surfactant-based vortex-assisted microextraction method combined with liquid chromatography for determination of synthetic antioxidants from edible oil

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