Research Article
Conducting poly(thionine) film as a support material for Pt particles: Electrocatalytic activity towards methanol oxidation
Abstract
Facile synthesis of Pt@PTH catalyst on pencil graphite electrode for electrooxidation of methanol was described. Influence of experimental conditions on the performance of the catalyst system was studied by recording cyclic voltammograms of methanol solution containing H2SO4 as the supporting electrolyte. The catalyst prepared under optimum conditions was physically characterized using Scanning Electron Microscopy, Energy Dispersive X-Ray Dispersion and Elemental Mapping methods. Electrochemical characterization was performed by cyclic voltammetry in H2SO4 solution.
Supporting Institution
Scientific Research Projects Coordination Department of Ordu University (ODÜBAP)
Project Number
TF-1615
References
- Ferreira V, Tenreiro A & Abrantes L M (2006). Electrochemical, microgravimetric and AFM studies of polythionine films Application as new support for the immobilisation of nucleotides. Sensors and Actuators B 119: 632–641
- Li X & Faghri A (2013). Review and advances of direct methanol fuel cells (DMFCs) part I: Design, fabrication, and testing with high concentration methanol solutions. J. Power Sources 226: 223–240
- Lin M, Hu X, Ma Z & Chen L (2012) Functionalized polypyrrole nanotube arrays as electrochemical biosensor for the determination of copper ions. Analytica Chimica Acta 746: 63-69
- Liu H, Wang G, Chen D, Zhang W, Li C & Fang B (2008). Fabrication of polythionine/NPAu/MWNTs modified electrode for simultaneous determination of adenine and guanine in DNA. Sensors and Actuators B 128: 414-421
- Liu C, Huang J & Wang L (2018). Electrochemical synthesis of a nanocomposite consisting of carboxy-modified multi-walled carbon nanotubes, polythionine and platinum nanoparticles for simultaneous voltammetric determination of myricetin and rutin. Microchimica Acta 185: 414
- Mondal S & Malik S (2016). Easy synthesis approach of Pt-nanoparticles on polyaniline surface: an efficient electro-catalyst for methanol oxidation reaction. Journal of Power Sources 328: 271-279
- Ong B C, Kamarudin S K & Basri S (2017). Direct liquid fuel cells: A review. Int. J. Hydrogen Energy 42: 10142–10157
- Selvaraj V & Alagar M (2007). Pt and Pt–Ru nanoparticles decorated polypyrrole/multiwalled carbon nanotubes and their catalytic activity towards methanol oxidation. Electrochem. Commun 9: 1145-1153
- Sönmez Çelebi M, Pekmez K, Özyörük H & Yıldız A (2008). Preparation and physical/electrochemical characterization of Pt/poly(vinylferrocenium) electrocatalyst for methanol oxidation. J. Power Sources 183: 8–13
- Sönmez Çelebi M (2016) Energy Applications: Fuel Cells, In Advanced Electrode Materials, Edited by A. Tiwari, F. Kuralay, and L. Uzun, Wiley-VCH, Weinheim, pp. 397–434
- Sönmez Çelebi M & Pekmez K (2017). Electrooxidation of Formic Acid Using Pt Nanoparticles Supported on Conducting Poly(Vinylferrocene) Polymer Support. Hacettepe J. Biol. & Chem. 45: 351–358
- Sönmez Çelebi M, Öztürk K & Dumangöz M (2021). Electrochemical Synthesis of Cauliflower-Like PtPd@PVF Nanocatalyst for Electrooxidation of Methanol. Hacettepe J. Biol. & Chem 49(1): 79-91
- Yang R, Ruan C, Dai W, Deng J & Kong J (1999). Electropolymerization of thionine in neutral aqueous media and H2O2 biosensor based on poly(thionine). Electrochimica Acta 44: 1585-1596
- Zhou W, Du Y, Ren F, Wang C, Xu J & Yang P (2010). High efficient electrocatalytic oxidation of methanol on Pt/polyindoles composite catalysts. Int. J. Hydrogen Energy 35: 3270-3279
İletken poli(tiyonin) filminin Pt partikülleri için destek malzemesi olarak kullanılması: Metanol yükseltgenmesine karşı elektrokatalitik aktivite
Abstract
Bu çalışmada kalem grafit elektrot üzerinde Pt@PTH katalizör sisteminin sentezi ve metanolün elektroyükseltgenmesi için kullanımı anlatılmaktadır. Deneysel koşulların katalizör sisteminin performansı üzerine olan etkisi, destek elektrolit olarak H2SO4 içeren metanol çözeltisinin dönüşümlü voltamogramları kaydedilerek saptanmıştır. Optimum koşullarda hazırlanan katalizörün fiziksel karakterizasyonu Taramalı Elektron Mikroskobu, Enerji Dağılımlı X-Işınları Spektroskopisi ve Elementel Haritalama ile gerçekleştirilmiştir. Elektrokimyasal karakterizasyon için ise H2SO4 çözeltisinde dönüşümlü voltametri yöntemi kullanılmıştır.
Project Number
TF-1615
References
- Ferreira V, Tenreiro A & Abrantes L M (2006). Electrochemical, microgravimetric and AFM studies of polythionine films Application as new support for the immobilisation of nucleotides. Sensors and Actuators B 119: 632–641
- Li X & Faghri A (2013). Review and advances of direct methanol fuel cells (DMFCs) part I: Design, fabrication, and testing with high concentration methanol solutions. J. Power Sources 226: 223–240
- Lin M, Hu X, Ma Z & Chen L (2012) Functionalized polypyrrole nanotube arrays as electrochemical biosensor for the determination of copper ions. Analytica Chimica Acta 746: 63-69
- Liu H, Wang G, Chen D, Zhang W, Li C & Fang B (2008). Fabrication of polythionine/NPAu/MWNTs modified electrode for simultaneous determination of adenine and guanine in DNA. Sensors and Actuators B 128: 414-421
- Liu C, Huang J & Wang L (2018). Electrochemical synthesis of a nanocomposite consisting of carboxy-modified multi-walled carbon nanotubes, polythionine and platinum nanoparticles for simultaneous voltammetric determination of myricetin and rutin. Microchimica Acta 185: 414
- Mondal S & Malik S (2016). Easy synthesis approach of Pt-nanoparticles on polyaniline surface: an efficient electro-catalyst for methanol oxidation reaction. Journal of Power Sources 328: 271-279
- Ong B C, Kamarudin S K & Basri S (2017). Direct liquid fuel cells: A review. Int. J. Hydrogen Energy 42: 10142–10157
- Selvaraj V & Alagar M (2007). Pt and Pt–Ru nanoparticles decorated polypyrrole/multiwalled carbon nanotubes and their catalytic activity towards methanol oxidation. Electrochem. Commun 9: 1145-1153
- Sönmez Çelebi M, Pekmez K, Özyörük H & Yıldız A (2008). Preparation and physical/electrochemical characterization of Pt/poly(vinylferrocenium) electrocatalyst for methanol oxidation. J. Power Sources 183: 8–13
- Sönmez Çelebi M (2016) Energy Applications: Fuel Cells, In Advanced Electrode Materials, Edited by A. Tiwari, F. Kuralay, and L. Uzun, Wiley-VCH, Weinheim, pp. 397–434
- Sönmez Çelebi M & Pekmez K (2017). Electrooxidation of Formic Acid Using Pt Nanoparticles Supported on Conducting Poly(Vinylferrocene) Polymer Support. Hacettepe J. Biol. & Chem. 45: 351–358
- Sönmez Çelebi M, Öztürk K & Dumangöz M (2021). Electrochemical Synthesis of Cauliflower-Like PtPd@PVF Nanocatalyst for Electrooxidation of Methanol. Hacettepe J. Biol. & Chem 49(1): 79-91
- Yang R, Ruan C, Dai W, Deng J & Kong J (1999). Electropolymerization of thionine in neutral aqueous media and H2O2 biosensor based on poly(thionine). Electrochimica Acta 44: 1585-1596
- Zhou W, Du Y, Ren F, Wang C, Xu J & Yang P (2010). High efficient electrocatalytic oxidation of methanol on Pt/polyindoles composite catalysts. Int. J. Hydrogen Energy 35: 3270-3279
There are 14 citations in total.
Details
| Primary Language | English |
|---|---|
| Subjects | Engineering |
| Journal Section | Research Articles |
| Authors | |
| Project Number | TF-1615 |
| Publication Date | June 30, 2021 |
| Submission Date | May 26, 2021 |
| Published in Issue | Year 2021 Volume: 11 Issue: 1 |