Electrochemical behaviour of gamma hydroxybutyric acid at a platinum electrode in acidic medium

Jiménez‐Pérez, Rebeca; Sevilla, José Manuel; Pineda, Teresa; Blázquez, Manuel; Gonzalez-Rodriguez, Jose

doi:10.1016/j.electacta.2013.07.231

Cited by 14 publications

(9 citation statements)

References 28 publications

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“…It is also consistent with the low current density observed by cyclic voltammetry [8]. Due to the interaction of GHB on the platinum surface, as can be seen by the partial suppression of UPD of hydrogen by voltammetry, we cannot discard a step of surface diffusion or another diffusion path of GHB towards activated centres of oxidised platinum (with a finite thickness of the diffusion layer).…”

Section: Chronoamperometry At High Potentialssupporting

confidence: 69%

“…This difference with respect the behaviour at high potential seems to suggest adsorption of GHB on the surface of the electrode with an additional positive contribution in the j-t curve at low time. It has been reported previously in a study by cyclic voltammetry [8].…”

Section: Chronoamperometry At Low Potentialsmentioning

confidence: 96%

“…A first paper on the electro-oxidation of gamma hydroxybutyric acid on a polycrystalline platinum electrode by cyclic voltammetry in acidic medium was recently released [8]. The cyclic voltammograms showed two oxidation peaks, A and B, within the potential range of the double layer region and that of the platinum oxide region ( Figure 1).…”

Section: Methodsmentioning

confidence: 99%

“…All solutions were prepared with deionized water produced by a Millipore system (Millipore, Maryland, US). GHB sodium salt, was prepared and identified as is described in reference [8].…”

Section: Methodsmentioning

confidence: 99%

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Study of the electro-oxidation of a recreational drug GHB (gamma hydroxybutyric acid) on a platinum catalyst-type electrode through chronoamperometry and spectro-electrochemistry

Jiménez‐Pérez

Sevilla

Pineda

et al. 2016

Journal of Electroanalytical Chemistry

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Abstract.The electro-oxidation of gamma-hydroxybutyric acid (GHB) on a polycrystalline platinum electrode in acidic medium has been studied using chronoamperometry. The study has been performed in a wide interval of potentials and at different concentrations.It was found that at longer times the density currents reached stationary values at more anodic potentials, whereas it is zero at lower potentials. These characteristics in the j-t curves suggest a different mechanism for the electro-oxidation of GHB, potential dependent, with a catalytic process at high potentials and an adsorption process controlled by mass transport at low potential.The change in the stationary current obtained at +0.9 V with variable GHB concentrations also suggests an oxidation mechanism catalysed by the platinum surface with platinum hydroxides acting as reaction intermediates to make the final oxidation product for GHB. The results obtained using chronoamperometry are in good agreement with those obtained using cyclic voltammetry where the alcohol group is oxidised at different potentials.In situ Surface Enhanced Raman Scattering (SERS) spectra corresponding to GHB intermediates and water adsorbed species being formed/consumed at the potentialdependent adsorption processes have been analyzed using spectro-electrochemistry. A peak at 1590 cm -1 , corresponding to the asymmetric stretching of carboxylic group in a bridge configuration, increases with the potential. This supports the hypothesis of a mechanism of formation of the succinic acid on the platinum surface as reaction product under the experimental conditions studied.2

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Section: Chronoamperometry At High Potentialssupporting

confidence: 69%

Section: Chronoamperometry At Low Potentialsmentioning

confidence: 96%

Section: Methodsmentioning

confidence: 99%

“…All solutions were prepared with deionized water produced by a Millipore system (Millipore, Maryland, US). GHB sodium salt, was prepared and identified as is described in reference [8].…”

Section: Methodsmentioning

confidence: 99%

See 2 more Smart Citations

Study of the electro-oxidation of a recreational drug GHB (gamma hydroxybutyric acid) on a platinum catalyst-type electrode through chronoamperometry and spectro-electrochemistry

Jiménez‐Pérez

Sevilla

Pineda

et al. 2016

Journal of Electroanalytical Chemistry

Self Cite

View full text Add to dashboard Cite

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“…All the chemicals were of analytical grade and purchased from Merck (Darmstadt, Germany) or Sigma-Aldrich (St. Louis, MO, USA). Ketamine, flunitrazepam and gamma-hydroxy butyric acid lactone (GBL) were from Sigma-Aldrich; gamma-hydroxybutyric acid (GHB) sodium salt was prepared and characterized as described previously [ 18 ]. Doubly distilled water was used throughout.…”

Section: Methodsmentioning

confidence: 99%

Rapid Drop-Volume Electrochemical Detection of the “Date Rape” Drug Flunitrazepam in Spirits Using a Screen-Printed Sensor in a Dry-Reagent Format

Papadopoulos

Diamanteas

Economou

et al. 2020

Sensors

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Flunitrazepam is an extremely potent benzodiazepine sedative which is associated with “drug-facilitated sexual assault” when administered within an alcoholic drink. This work describes a simple electrochemical method for on-site rapid detection of flunitrazepam in untreated spirits (whiskey, vodka and gin) using a single-use screen-printed sensor (featuring graphite working and auxiliary electrodes and an Ag/AgCl reference electrode) in a dry reagent format. Analysis was performed by placing a drop of sample on the sensor, which was previously coated with dry KCl, and recording selected reduction/oxidation peaks of the target compound in a cyclic voltammetry scan. The limit of quantification of flunitrazepam was at the sub-mg L−1 range. The between-sensor % relative standard deviation of the analytically useful reduction peak in a solution containing 11.4 mg L−1 flunitrazepam was 9.8% (n = 5). Quantification was performed using calibration curves constructed from pooled samples spiked with flunitrazepam with relative errors <15%. The main advantages of the methodology are that it involves no sample pretreatment (such as deoxygenation, extraction or reagent(s) addition) and requires only drop-sized volumes of the sample, thus facilitating rapid on-site screening using portable equipment.

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Facile Microfluidic Fabrication of 3D Hydrogel SERS Substrate with High Reusability and Reproducibility via Programmable Maskless Flow Microlithography

Shin

Jeon

You

et al. 2020

Advanced Optical Materials

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Surface-enhanced Raman scattering (SERS) technique is a label-free and nondestructive technique that is used to identify fingerprint information of molecules in various fields such as biology, [1] chemistry, [2] and environment. [3] Noble metals such as gold and silver possessing coarse surfaces have been used as efficient and active materials for solid SERS, static liquid SERS, and dynamic liquid SERS substrates. [4-6] However, the detection of analytes with low concentrations in realtime is challenging particularly in the static liquid phase due to a small number of analytes in a close contact with the metallic surface. Recent studies have alternatively focused on dynamic liquid SERS substrates such as SERS-integrated microfluidic systems, where analytes encounter the SERS substrate with a higher frequency than in conventional static liquid systems. [7-10] Therefore, more reliable and reproducible Raman signals can be achieved for analytes with low concentrations. Such microfluidic SERS systems

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Electrochemical behaviour of gamma hydroxybutyric acid at a platinum electrode in acidic medium

Cited by 14 publications

References 28 publications

Study of the electro-oxidation of a recreational drug GHB (gamma hydroxybutyric acid) on a platinum catalyst-type electrode through chronoamperometry and spectro-electrochemistry

Study of the electro-oxidation of a recreational drug GHB (gamma hydroxybutyric acid) on a platinum catalyst-type electrode through chronoamperometry and spectro-electrochemistry

Rapid Drop-Volume Electrochemical Detection of the “Date Rape” Drug Flunitrazepam in Spirits Using a Screen-Printed Sensor in a Dry-Reagent Format

Facile Microfluidic Fabrication of 3D Hydrogel SERS Substrate with High Reusability and Reproducibility via Programmable Maskless Flow Microlithography

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