Pgstat 302n autolab potentiostat galvanostat analyzer

Manufactured by Metrohm

The PGSTAT 302N Autolab potentiostat/galvanostat analyzer is a versatile laboratory instrument designed for electrochemical measurements. It functions as a potentiostat, which controls the potential applied to an electrochemical cell, and a galvanostat, which controls the current. The instrument is capable of performing a wide range of electrochemical techniques, including voltammetry, chronoamperometry, and electrochemical impedance spectroscopy.

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Lab products found in correlation

Hydroxylamine, by Merck Group (1 mentions) 710 ph meter, by Metrohm (1 mentions) Drp 110, by Metrohm (1 mentions)

2 protocols using pgstat 302n autolab potentiostat galvanostat analyzer

Electrochemical Measurements of Hydroxylamine

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The electrochemical measurements were performed by a PGSTAT 302N Autolab potentiostat/galvanostat analyzer (Eco-Chemie; B.V. Kanaalweg, The Netherlands). All test conditions were monitored by General Purpose Electrochemical System (GPES) software. A three-part DropSens SPE (DRP-110, Asturias, Spain) included a graphite working electrode, a silver pseudo-reference electrode and a graphite auxiliary electrode. The solution pH values were measured by a Metrohm 710 pH meter. Double distilled water was applied to prepare all test fresh solutions. All reagents, including hydroxylamine, possessed analytical grade belonged to Merck (Darmstadt, Germany). Orthophosphoric acid and related salts were utilized to prepare all buffer solutions at the pH values (2.0 to 9.0).

Tajik S., Beitollahi H., Ahmadi S.A., Askari M.B, & Di Bartolomeo A. (2021). Screen-Printed Electrode Surface Modification with NiCo2O4/RGO Nanocomposite for Hydroxylamine Detection. Nanomaterials, 11(12), 3208.

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Electrochemical Characterization of Materials

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The electrochemical measurements were performed by a PGSTAT 302N Autolab potentiostat/galvanostat analyzer (Eco-Chemie, Utrecht, The Netherlands). All test conditions were monitored by General Purpose Electrochemical System (GPES) software. A three-part DropSens SPE (DRP-110, Metrohm DropSens, Oviedo, Spain) included a graphite working electrode, a silver pseudo-reference electrode, and a graphite auxiliary electrode. The solution pH values were measured by a Metrohm 710 pH meter. X-ray diffraction analyses were performed with a Thermo Scientific device (ARL EQUINOX 3000, (Thermo, Waltham, MA, USA)). FE-SEM images were obtained using a Hitachi Model S-3700N (Hitachi, Tokyo, Japan). The TEM images were obtained using a Phillips EM 2085 machine (Philips, Amsterdam, The Netherlands).
All reagents possessed analytical grade and were from Merck (Darmstadt, Germany). Orthophosphoric acid and related salts were utilized to prepare all buffer solutions at the pH values (2.0 to 9.0).

Tajik S., Askari M.B., Ahmadi S.A., Nejad F.G., Dourandish Z., Razavi R., Beitollahi H, & Di Bartolomeo A. (2022). Electrochemical Sensor Based on ZnFe2O4/RGO Nanocomposite for Ultrasensitive Detection of Hydrazine in Real Samples. Nanomaterials, 12(3), 491.

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