Electrochemical feasibility study of methyl parathion determination on graphite-modified basal plane pyrolytic graphite electrode

Okumura, Leonardo Luiz; Saczk, Adelir Aparecida; Oliveira, Marcelo Firmino de; Fulgêncio, Ana Carolina C.; Torrezani, Larissa; Gomes, Paulo Eduardo N.; Peixoto, Rosana M.

doi:10.1590/s0103-50532011000400007

Cited by 12 publications

(5 citation statements)

References 22 publications

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“…The linearity observed upon plotting the square root of the scan rate against the current (Figure 7C) suggested that the processes happening between the analyte and the electrode are largely diffusion controlled however, from a plot of the log I p vs log n, it was established that this is not the case for all the probes ( Figure 7D). Theoretically, a gradient of 0.5 or 1.0 from a plot of the log I p vs log n corresponds with either diffusion or adsorption controlled processes, respectively (Figure 7D) [42][43][44]. In all the probes studied, all but two were diffusion controlled.…”

Section: Kinetic Studies Of the Detection Of Hydrazinementioning

confidence: 92%

Electrocatalytic Activity of Asymmetrical Cobalt Phthalocyanines in the Presence of N Doped Graphene Quantum Dots: The Push‐pull Effects of Substituents

et al. 2019

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A series of Co phthalocyanine (CoPc) derivatives and their respective nitrogen doped graphene quantum dot conjugates were used as catalysts towards the electrooxidation of hydrazine. Using a glassy carbon electrode as a support for the electrocatalysts, through cyclic voltammetry and chronoamperometry, the effects of combining the CoPcs with the nitrogen doped graphene quantum dots (NGQDs) were studied. The general observations made were that the NGQDs improve the catalytic activity of the CoPcs in both the π‐π stacked and covalently linked conjugates by increasing the sensitivities and lowering the limits of detection with values as low as 0.43 μM being recorded.

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Section: Kinetic Studies Of the Detection Of Hydrazinementioning

confidence: 92%

Electrocatalytic Activity of Asymmetrical Cobalt Phthalocyanines in the Presence of N Doped Graphene Quantum Dots: The Push‐pull Effects of Substituents

et al. 2019

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“…Electroanalytical techniques have often been used for the analysis of a wide range of substances of industrial, pharmacological, and biomedical interest [14][15][16]23]. Voltammetry, for instance, consists in the application of a linear ramp of electrical potential between two electrodes (working and auxiliary) immersed in a liquid solution containing an analyte, with subsequent measurement of the produced electric current [20].…”

Section: Electroanalytical Methodologiesmentioning

confidence: 99%

Voltammetric determination of Δ9-THC in glassy carbon electrode: An important contribution to forensic electroanalysis

Balbino

Menezes

Eleotério

et al. 2012

Forensic Science International

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A new voltammetric method for the determination of Δ(9)-tetrahydrocannabinol (Δ(9)-THC) is described. The voltammetric experiments were accomplished in N-N dimethylformamide/water (9:1, v/v), using tetrabutylammonium tetrafluoroborate (TBATFB) 0.1mol/L as supporting electrolyte and a glassy carbon disk electrode as the working electrode. The anodic peak current was observed at 0.0V (vs. Ag/AgCl) after a 30s pre-concentration step under an applied potential of -1.2V (vs. Ag/AgCl). A linear dependence of Δ(9)-THC detection was obtained in the concentration range 2.4-11.3ng/mL, with a linear correlation coefficient of 0.999 and a detection limit of 0.34ng/mL. The voltammetric method was used to measure the content of Δ(9)-THC in samples (hemp and hashish) confiscated by the police. The elimination of chemical interferences from the samples was promptly achieved through prior purification using the TLC technique, by employing methanol/water (4:1, v/v) as the mobile phase. The results showed excellent correlation with results attained by HPLC.

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“…The plot of log I p vs log ν (GCE‐ 3 as an example in Figure 7B ) revealed that the processes happening between the analyte and the modified electrodes are diffusion controlled with all the plots registering a slope of 0.5. In the case of adsorption‐based processes, a slope of 1 or close to 1 would be observed [28–30].…”

Section: Resultsmentioning

confidence: 99%

Creating the Ideal Push‐Pull System for Electrocatalysis: A Comparative Study on Symmetrical and Asymmetrical Cardanol‐based Cobalt Phthalocyanines

Nkhahle

Nyokong

2020

Electroanalysis

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A symmetrical cardanol‐based cobalt phthalocyanine (Pc) along with its asymmetrical acid‐based derivatives were synthesized and applied in the electrocatalysis of hydrazine. Despite the inhibition of electron movement by the bulky cardanol‐based substituent throughout the series of molecules, an ideal combination of substituents was established in GCE‐3 (2,9,16‐tris(3‐pentadecylphenoxy)‐23‐mono propionic acid phthalocyanato cobalt (II)) where a limit of detection (LoD) value of 5.10 μM (signal to noise ratio=5) was recorded for the detection of hydrazine. The results obtained serve as an illustration that the combination of electron‐donating and electron‐withdrawing substituents has a significant influence on the complete functioning of the phthalocyanine molecule(s) being investigated.

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Electrochemical feasibility study of methyl parathion determination on graphite-modified basal plane pyrolytic graphite electrode

Cited by 12 publications

References 22 publications

Electrocatalytic Activity of Asymmetrical Cobalt Phthalocyanines in the Presence of N Doped Graphene Quantum Dots: The Push‐pull Effects of Substituents

Electrocatalytic Activity of Asymmetrical Cobalt Phthalocyanines in the Presence of N Doped Graphene Quantum Dots: The Push‐pull Effects of Substituents

Voltammetric determination of Δ9-THC in glassy carbon electrode: An important contribution to forensic electroanalysis

Creating the Ideal Push‐Pull System for Electrocatalysis: A Comparative Study on Symmetrical and Asymmetrical Cardanol‐based Cobalt Phthalocyanines

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