فهرس المقالات Electrocatalytic oxidation

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  1 - A Simple and an Effective Catalyst for Determination of Cefixime in Real Samples Using of Modified Carbon Paste Electrode with Cobalt Impregnated Zeolite
  Samaneh Tajjedin Banafsheh Norouzi
  Carbon paste electrode modified with cobalt impregnated zeolite was prepared by mixing of cobalt_zeolite (Co_Z) and graphite powder with different percent. The electrochemical oxidation of cefixime at such electrodes was investigated using the cyclic voltammetric and am أکثر

  Carbon paste electrode modified with cobalt impregnated zeolite was prepared by mixing of cobalt_zeolite (Co_Z) and graphite powder with different percent. The electrochemical oxidation of cefixime at such electrodes was investigated using the cyclic voltammetric and amperometric techniques. It is not electrochemically active towards cefixime oxidation in 0.1 M phosphate buffer solution (pH=7) on a carbon paste electrode modified with zeolite. The presence of cobalt ions in the zeolite matrix, by soaking the electrode in an aqueous Co(NO3)2 solution, markedly enhances the electrocatalytic activity which was found to depend on the cobalt content. However, the electrocatalytic activity depends on different percent of Co_Z. Under the selected conditions, the anodic peak current was linearly dependent on the concentration of cefixime in the range 0.003–8 mM with the cyclic voltammetric method. The detection limit (S/N=3) was also estimated to be 2.98 μM. Finally, this method was applied for the determination of cefixime in tablet samples. تفاصيل المقالة
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  2 - Electrocatalytic Determination of Anti-Cancer Drug Imatinib, Using Ni Nanoparticle Modified Carbon Paste Electrode
  Fatemeh Khakpoor Shahla Fathi
  In this research, nickel nanoparticles were synthesized by non-aqueous polyol method and morphology of nanoparticles was studied using scanning electron microscopy. Then Ni nanoparticle modified carbon paste electrode was prepared. Electrochemical behavior of modified e أکثر

  In this research, nickel nanoparticles were synthesized by non-aqueous polyol method and morphology of nanoparticles was studied using scanning electron microscopy. Then Ni nanoparticle modified carbon paste electrode was prepared. Electrochemical behavior of modified electrode was studied in basic solution, using cyclic voltammetry and chronoamperometry methods. A pair of oxidation-reduction peaks relating to Ni(OH)2/ NiOOH redox couple was observed in cyclic voltammogram of this electrode. Also, the electrochemical behavior of this electrode in presence of imatinib drug was studied. Results show that this modified electrode has a good ability for electrocatalytic oxidation of imatinib in basic solution. In presence of imatinib, current intensity of oxidation peak of electrode was increased, depending on its concentration. Linear dynamic range, limit of detection and rate constant of electrocatalytic reaction were determined using cyclic voltammetry and chronoamperometry methods. Amount of limit of detection (LOD) in cyclic voltammetry and hydrodynamic amperometry methods were calculated 1.2 × 10 -6 M and 3.5 × 10-7M respectively. Finally, the proposed sensor was successfully applied for determination of imatinibin real samples such as tablet and human blood plasma. تفاصيل المقالة
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  3 - Electrocatalytic oxidation of formaldehyde on novel composite of nickel/triton-x100/poly(o-aminophenol-co-aniline)
  Sepide Saeedi Kenari Shahla Fathi Fereshteh Chekin
  Oxidation of formaldehyde (HCHO) is very important, owing to its use in fuel cells. Modification of electrodes surfaces is an excellent way to decrease the overpotentials as well as to increase the current density of the voltammetric response.pt as most efficient metal أکثر

  Oxidation of formaldehyde (HCHO) is very important, owing to its use in fuel cells. Modification of electrodes surfaces is an excellent way to decrease the overpotentials as well as to increase the current density of the voltammetric response.pt as most efficient metal catalyst can easily be poisoned by product of oxidation and also it has high cost. In this work an efficient and low cost electrocatalytic system for electrochemical oxidation of formaldehyde in alkaline solution is introduced. For preparation of this modified electrode, copolymeric film on the surface of carbon paste electrode was formed by successive potential cycling in solution containing o-aminophenol and aniline as monomer and Triton X-100 as a surfactant. Ni(II) ions were incorporated into the electrode surface by immersion of the copolymeric modified electrode in 0.1 M Ni(II) ion solution. The influences of different parameters such as mol ratio of monomers in copolymer formation and the number of potential cycling for copolymer formation on electrocatalytic ability of the modified electrode for formaldehyde oxidation have been investigated and optimized.Results show that modified electrode with copolymeric films, show higher catalytic effect for formaldehyde oxidation respect to pure homopolymers (polyaniline or poly(o-aminophenol)). Also addition of Triton -X100 in electropolymerization step, considerably increased catalytic ability of the modified electrode for formaldehyde oxidation. This modified electrode displays a highly efficient electrocatalytic activity toward oxidation of formaldehyde. The current density of 11 mA cm-2 is greater than most of the previously reported electrodes. تفاصيل المقالة
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  4 - Formaldehyde measurement based on its electrocatalytic oxidation by Ni-TiO2 nanoparticles/chitosan modified carbon paste electrode as an effective method
  Ebrahim Zarei Mohammad Reza Jamali Jaber Bagheri
  In this work, for the first time, a new and effective bulk modified carbon paste electrode (CPE) was prepared by TiO2 nanoparticles and chitosan and then Ni2+ ions were incorporated to this electrode by immersion of the modified electrode in nickel chloride solution. Th أکثر

  In this work, for the first time, a new and effective bulk modified carbon paste electrode (CPE) was prepared by TiO2 nanoparticles and chitosan and then Ni2+ ions were incorporated to this electrode by immersion of the modified electrode in nickel chloride solution. The values of electron transfer coefficient, charge-transfer rate constant and electrode surface coverage for Ni(II)/Ni(III) redox couple of the TiO2/chitosan modified carbon paste electrode (Ni-TiO2/CHIT/CPE) were found to be 0.66, 3.28 × 10-1 s-1 and 5.14 × 10-8 mol cm-2, respectively. The prepared Ni-TiO2/CHIT/CPE material was characterized by scanning electron microscopy and X‐ray diffractometry. The electrochemical behaviour of the Ni-TiO2/CHIT/CPE towards oxidation of formaldehyde was evaluated and proved. The effects of various factors on the efficiency of electrocatalytic oxidation of formaldehyde were optimized. Under the optimized condition, a calibration curve was obtained in the linear dynamic range of 2.80 × 10-4 to 2.50 × 10-2 mol L-1 with detection limit of 7.14 × 10-5 mol L-1 (3σ/slope) for formaldehyde determination. Also, the method was successfully applied for formaldehyde measurement in the real sample. تفاصيل المقالة
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  5 - سنتز نانوکامپوزیت نیکل - مس به کمک مایکروویو برای اکسایش الکتروکاتالیزوری متانول؛ یک ماده کارآمد جهت آند برای کاربردهای پیل سوختی الکلی
  محمد علی کامیابی بابک جلیلیان
  در این مطالعه، سنتز و کاربرد نانو کامپوزیت هایی دو فلزی نیکل ‌ـ مس و کاهش گرافن اکسید بطور همزمان با استفاده از امواج مایکروویو گزارش می شود. روش سنتز پیشنهادی یک فرآیند ساده، سریع و قابل کنترل بشمار می‌رود. رفتار الکتروشیمیایی کاتالیزور سنتز شده برای واکنش اکسایش مت أکثر

  در این مطالعه، سنتز و کاربرد نانو کامپوزیت هایی دو فلزی نیکل ‌ـ مس و کاهش گرافن اکسید بطور همزمان با استفاده از امواج مایکروویو گزارش می شود. روش سنتز پیشنهادی یک فرآیند ساده، سریع و قابل کنترل بشمار می‌رود. رفتار الکتروشیمیایی کاتالیزور سنتز شده برای واکنش اکسایش متانول (MOR) در محیط قلیایی مورد بررسی قرار گرفت.. اثر ملامین بر فعالیت الکتروکاتالیستی کاتالیزور سنتز شده با روش‌های ولتامتری چرخه‌ای (CV)، کرونو آمپرومتری (CA) و طیف‌سنجی امپدانس الکتروشیمیایی (EIS) مطالعه شد. همچنین بررسی اثر ملامین به عنوان منبع نیتروژن منجر به دوپ‌شدن نیتروژن در شبکه گرافن اکسید کاهش یافته نشان داد که تا حدی منجر به تشکیل ساختارهای NiCu-N می‌شود. و این پیوند فلز-N باعث افزایش فعالیت کاتالیزوری نسبت به MOR می‌شود. اثر ترویجی ملامین با افزایش 203 میکروآمپری در جریان و کاهش 20 میلی ولتی در پتانسیل شروع در مقایسه با سایر کاتالیزورهای شاهد سنتز شده در طی فعالیت MOR ثابت شد نتایج نشان‌دهنده عملکرد عالی کاتالیزور سنتز شده بعنوان آند در پیل‌ سوختی مستقیم متانول است. تفاصيل المقالة