Adsorptive Voltammetric Behaviors of Resveratrol at Graphite Electrode and its Determination in Tablet Dosage Form

Liu, Jinxia; Wu, Yanju; Wang, Fei; Gao, Lin; Ye, Baoxian

doi:10.1002/jccs.200800039

Cited by 19 publications

(7 citation statements)

References 20 publications

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“…Therefore, the number of protons ( m ) in the trans -resveratrol oxidation was equal to the number of n a according to the Nernst equation E p = E 0 − 0.059( m / n a ) pH. Based on the above results, the trans -resveratrol oxidation on the ERGO/GC electrode involved 1 electron and 1 proton, which was consistent with the reported electrochemical oxidation [ 29 , 38 , 39 ].…”

Section: Resultssupporting

confidence: 88%

Electrochemical Evaluation oftrans-Resveratrol Levels in Red Wine Based on the Interaction between Resveratrol and Graphene

Liu

Zhou

Kang

et al. 2017

Journal of Analytical Methods in Chemistry

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trans-Resveratrol is often considered as one of the quality standards of red wine, and the development of a sensitive and reliable method for monitoring the trans-resveratrol levels in red wine is an urgent requirement for the quality control. Here, a novel voltammetric approach was described for probing trans-resveratrol using a graphene-modified glassy carbon (GC) electrode. The proposed electrode was prepared by one-step electrodeposition of reduced graphene oxide (ERGO) at a GC electrode. Compared with the bare GC electrode, the introduced graphene film on the electrode surface dramatically improved the sensitivity of the sensor response due to the π-π interaction between the graphene and trans-resveratrol. The developed sensor exhibited low detection limit of 0.2 μM with wide linear range of 0.8–32 μM and high stability. For the analysis of trans-resveratrol in red wine, the high anti-interference ability and the good recoveries indicated the great potential for practical applications.

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Section: Resultssupporting

confidence: 88%

Electrochemical Evaluation oftrans-Resveratrol Levels in Red Wine Based on the Interaction between Resveratrol and Graphene

Liu

Zhou

Kang

et al. 2017

Journal of Analytical Methods in Chemistry

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“…A linear plot of peak current intensity (I p ) vs. square root of scan rate (ν) was obtained (Fig. 6), following the linear equation: I p (µA) = 0.0524 ν (mV/s) -0.2488; R 2 = 0.99, which implies that the redox process of 5-HT at the MCZ/GCE is diffusioncontrolled [33]. Also, the difference between the anodic peak potential and the cathodic peak potential, ∆E p was observed to increase with increasing scan rate.…”

Section: Effect Of Scan Ratesmentioning

confidence: 97%

MWCNT-Chitosan-ZrO2 Nanocomposite Modified Sensor for Sensitive and Selective Electrochemical Determination of Serotonin

Devnani¹

2015

IJIRSET

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ABSTRACT:A novel sensitive electrochemical sensor has been developed by modification of glassy carbon electrode (GCE) with multi-walled carbon nanotube (MWCNT), chitosan (CHIT) and zirconium oxide (ZrO 2 ) nanoparticles. The morphological characteristics of nanocomposite (MWCNT-CHIT-ZrO 2 or MCZ) were studied by scanning electron microscope and atomic force microscopy. The electrochemical behavior of serotonin at nanocomposite modified GCE (MCZ/GCE) was investigated in pH 6.5 Briton Robinson buffer solution using cyclic voltammetry and square wave voltammetry. MCZ/GCE showed an enhancement in the current response as compared to bare GCE and showed a linear response to serotonin in the range 800 to 5000 nM. The limit of detection was found to be 0.6 nM, which is lower than many other sensors reported for serotonin in literature. The modified sensor showed high sensitivity (9 nA/nM) and selectivity for serotonin. The proposed method was successfully employed for quantification of serotonin in human blood serum samples.

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“…For 5.0 × 10 −7 and 1.0 × 10 −7 M bulk NAL.HCl, the response was linear up to 50 s, leveled off then decreased, indicating that the adsorptive equilibrium onto the mercury electrode surface was achieved [33] i.e., full surface coverage was approached [34]. Thus, when saturation of the electrode area was reached, interactions among the molecules in the adsorbed state became noticeable and the peak current magnitude started to decrease at long accumulation times [35], i.e., desorption phenomena [36] (Fig. 4, curves a and b).…”

Section: Electrochemical Behavior Of Nalhclmentioning

confidence: 98%

Voltammetry of naltrexone in commercial formulation and human body fluids: Quantification and pharmacokinetic studies

Ghoneim

El‐Desoky

Abdel-Galeil

2011

Bioelectrochemistry

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Adsorptive Voltammetric Behaviors of Resveratrol at Graphite Electrode and its Determination in Tablet Dosage Form

Cited by 19 publications

References 20 publications

Electrochemical Evaluation oftrans-Resveratrol Levels in Red Wine Based on the Interaction between Resveratrol and Graphene

Electrochemical Evaluation oftrans-Resveratrol Levels in Red Wine Based on the Interaction between Resveratrol and Graphene

MWCNT-Chitosan-ZrO2 Nanocomposite Modified Sensor for Sensitive and Selective Electrochemical Determination of Serotonin

Voltammetry of naltrexone in commercial formulation and human body fluids: Quantification and pharmacokinetic studies

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