• PANKAJ KUMAR RASTOGI

      Articles written in Journal of Chemical Sciences

    • Copper oxide immobilized clay nano architectures as an efficient electrochemical sensing platform for hydrogen peroxide

      DHARMENDRA KUMAR YADAV VELLAICHAMY GANESAN RUPALI GUPTA MAMTA YADAV PIYUSH KUMAR SONKAR PANKAJ KUMAR RASTOGI

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      An electrochemical sensor for hydrogen peroxide (H2O2) present in face bleach cream is fabricated using a composite based on bentonite (Bt) clay and copper oxide (CuO) nanoparticles (CuO-Bt). The CuO nanoparticles’ immobilization into Bt was carried out by a two-step process in which Cu2+ is ionexchangedinto Bt layers (Cu2+-Bt) in the first step followed by the chemical reaction of NaOH with Cu2+-Bt in the second step to get the target material, CuO nanoparticles immobilized Bt (CuO-Bt). The successful immobilization of CuO nanoparticles into Bt is investigated by a variety of techniques like scanning electron microscopy, transmission electron microscopy, FT-IR spectroscopy, UV-Vis spectroscopy, and electrochemical methods. The CuO-Bt composite is coated on a glassy carbon electrode and used as a selective electrochemical sensing platform for the determination of H2O2 based on the significant electrocatalyticproperty of CuO-Bt towards the H2O2 oxidation. This amperometric electrochemical sensor shows two linear detection ranges (5–50 lM and 50–10000 lM) with a limit of detection of 4.9 lM. The sensitivity is calculated to be 0.06 mA mM-1 cm-2. This electrochemical sensor exhibits high selectivity, stability, and practical applicability for the H2O2 determination in real samples.

    • Sensitive determination of kojic acid in tomato sauces using Ni–Fe layered double hydroxide synthesized through Fe-MIL-88 metalorganic framework templated route

      DHARMENDRA KUMAR YADAV VELLAICHAMY GANESAN RUPALI GUPTA MAMTA YADAV PANKAJ KUMAR RASTOGI

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      A sacrificial template, Fe-MIL-88 is used to synthesize Ni–Fe layered double hydroxide (Ni–FeLDH). The metal-organic framework (Fe-MIL-88) is synthesized from the precursors, ferric nitrate and terephthalic acid. Electrocatalytic oxidation of kojic acid (KA) is realized by Ni–Fe LDH film which is coated on a glassy carbon electrode (GC). Under the optimized conditions, amperometry measurements at the Ni–Fe LDH coated GC as a function of KA concentration demonstrates a sensitive determination of KA. The calibration curve shows two linear ranges, 1–1500 lM and 1500–4500 lM for the KA determination.Detection limit for the KA determination is estimated as 0.73 lM. The practical applicability of this method is confirmed by measuring the KA concentration present in various real samples.

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