Farklı Metalik Parçacıklarla Modifiye Edilmiş Polikaprolakton Filmlerin Difüzyon Katsayısına Etkisi

Muhammet Samet Kılıç

doi:10.31466/kfbd.1415301

EN TR

Effect of Polycaprolactone Films Modified with Different Metallic Particles on Diffusion Coefficient

Abstract

Designing modified electrodes according to the desired properties provides a great diversity for different fields of study such as (bio)electro-catalytic and (bio)sensor. The electrochemical behavior of the modified films to be used on the electrode surfaces affects the analytical parameters of the studies. In this study, the redox reaction of potassium hexacyanoferrate [K3Fe(CN)6] on the surfaces of modified electrodes (polycaprolactone/iridium(IV) oxide (PCL/(IrO2), polycaprolactone/cobalt(II) oxide (PCL/CoO), polycaprolactone/aluminum oxide (PCL/Al2O3) and polycaprolactone/ferrocene (PCL/Fe (C5H5)2)) was carried out by cyclic voltammetry technique. Oxidation and reduction diffusion coefficients were calculated for each composite using the voltammogram data and Randles-Sevcik equation. The diffusion coefficient values of the composite films were compared with each other and it was found that the iron ions provided from [K3Fe(CN)6] showed better oxidation and reduction performance on the surface of the IrO2 modified electrode than the other prepared modified electrodes.

Keywords

Diffusion coefficient , Randles-Sevcik equation , iridium oxide , cobalt oxide , aluminum oxide , ferrocene

Farklı Metalik Parçacıklarla Modifiye Edilmiş Polikaprolakton Filmlerin Difüzyon Katsayısına Etkisi

Öz

Modifiye elektrotların arzu edilen özelliklere göre tasarlanması (biyo)elektro-katalitik ve (biyo)sensör gibi farklı çalışma alanları için büyük bir çeşitlilik sağlamaktadır. Kullanılacak modifiye filmlerin elektrot yüzeylerindeki elektrokimyasal davranışı çalışmaların analitik parametrelerine etki etmektedir. Bu çalışmada, modifiye elektrotların (polikaprolakton/iridyum(IV) oksit (PCL/(IrO2), polikaprolakton/kobalt(II) oksit (PCL/CoO), polikaprolakton/alüminyum oksit (PCL/Al2O3) ve polikaprolakton/ferrosen (PCL/Fe (C5H5)2)) yüzeylerinde potasyum hekzasiyanoferratın [K3Fe(CN)6] redoks reaksiyonu döngüsel voltametri tekniği ile gerçekleştirilmiştir. Elde edilen voltamogram dataları ve Randles-Sevcik denklemi yardımıyla her bir kompozit için oksidasyon ve redüksiyon difüzyon katsayıları hesaplanmıştır. Kompozit filmlerin difüzyon katsayısı değerleri birbirleriyle kıyaslanmış ve [K3Fe(CN)6]’dan sağlanan demir iyonlarının IrO2 ile modifiye edilmiş elektrodun yüzeyinde, hazırlanan diğer modifiye elektrotlara göre daha iyi oksidasyon ve redüksiyon performansı gösterdiği tespit edilmiştir.

Anahtar Kelimeler

Difüzyon katsayısı , Randles-Sevcik denklemi , iridyum oksit , kobalt oksit , alüminyum oksit , ferrosen

References

Abood, E. S., Mashkoor, M. S., & Jouda, A. M. (2019). Cyclic Voltammetry study for MnO2 Nanoparticles Modified Carbon Paste Electrode. Nano Biomedicine and Engineering, 11(4).
Achilli, E., Minelli, S., Casale, I., He, X., Agostini, G., Spinolo, G., Ghigna, P., Minguzzi, A., & Vertova, A. (2023). Determining the proton diffusion coefficient in highly hydrated iridium oxide films by energy dispersive X-ray absorption spectroscopy. Electrochimica Acta, 444, 142017.
Beshahwored, S. S. (2020). Cyclic voltammetric (CV) evaluation of electro chemical behaviors of K3[Fe(CN)6] and uric acid. International Research Journal of Natural Sciences, 8(2), 52-59.
Chou, S.-C., Hsieh, Y.-C., Cheang, W.-H., Sun, B.-Y., Chu, C.-Y., Chen, S.-Y., Chiao, J.-C., & Wu, P.-W. (2022). A flexible IrO2 membrane for pH sensing. Scientific Reports, 12(1), 11712.
Daiane Ferreira da Silva, C., Claudel, F., Martin, V., Chattot, R., Abbou, S., Kumar, K., Jiménez-Morales, I., Cavaliere, S., Jones, D., & Rozière, J. (2021). Oxygen evolution reaction activity and stability benchmarks for supported and unsupported IrOx electrocatalysts. ACS Catalysis, 11(7), 4107-4116.
Donini, C. A., da Silva, M. K. L., Simões, R. P., & Cesarino, I. (2018). Reduced graphene oxide modified with silver nanoparticles for the electrochemical detection of estriol. Journal of Electroanalytical Chemistry, 809, 67-73.
Hosseini, M. G., Hosseini, M. M., & Ahadzade, I. (2022). The use of silica in IrO2-based DSA type electrode: An efficient approach to construct cost-effective, potent electrodes for oxygen evolution reaction. Materials Chemistry and Physics, 285, 126086.
Jeon, J. H., Lim, H.-R., Park, J. Y., & Choa, Y.-H. (2024). Iridium oxide-based non-enzymatic glucose sensor: Superior electro-catalytic performance in biological environmental media. Environmental Research, 252, 118772.
K. B. A. Ang, C. M. L., H. M. O. Yu, M. Uy, A. N. Soriano, N. P. Dugos. (2020). Determination of diffusion coefficients and antioxidant activities of ascorbic acid in guava juice using cyclic voltammetry. IOP Conf. Series: Materials Science and Engineering, 778, 1-9, Article 012037.
Meenakshi, S., Rama, R., Pandian, K., & Gopinath, S. C. B. (2021). Modified electrodes for electrochemical determination of metronidazole in drug formulations and biological samples: An overview. Microchemical Journal, 165.

S.P. Mundinamani, M. K. R. (2014). Cyclic voltammetric studies on the role of electrode, electrode surface modification and electrolyte solution of an electrochemical cell. IOSR Journal of Applied Chemistry, 7(9 ), 45-52.
Sarakatsanou, C., Karastogianni, S., & Girousi, S. (2023). Promising electrode surfaces, modified with nanoparticles, in the sensitive and selective electroanalytical determination of antibiotics: A review. Applied Sciences, 13(9).
Shim, J. H., Lee, Y., Kang, M., Lee, J., Baik, J. M., Lee, Y., Lee, C., & Kim, M. H. (2012). Hierarchically driven IrO2 nanowire electrocatalysts for direct sensing of biomolecules. Anal Chem, 84(8), 3827-3832.
Tsierkezos, N. G. (2007). Cyclic voltammetric studies of ferrocene in nonaqueous solvents in the temperature range from 248.15 to 298.15 K. Journal of Solution Chemistry, 36(3), 289-302.
Wang, H., Wang, J., Bo, G., Wu, S., & Luo, L. (2020). Degradation of pollutants in polluted river water using Ti/IrO2–Ta2O5 coating electrode and evaluation of electrode characteristics. Journal of Cleaner Production, 273, 123019.
You, T., Niwa, O., Kurita, R., Iwasaki, Y., Hayashi, K., Suzuki, K., & Hirono, S. (2004). Reductive H2O2 detection at nanoparticle iridium/carbon film electrode and its application as L‐glutamate enzyme sensor. Electroanalysis, 16(1-2), 54-59.
Zadehnazari, A. (2023). Metal oxide/polymer nanocomposites: A review on recent advances in fabrication and applications. Polymer-Plastics Technology and Materials, 62(5), 655-700.

Details

Primary Language

Turkish

Subjects

Electrochemistry , Material Production Technologies

Journal Section

Research Article

Authors

Muhammet Samet Kılıç ^*
0000-0001-9572-7656
Türkiye

Publication Date

December 15, 2024

Submission Date

January 5, 2024

Acceptance Date

October 10, 2024

Published in Issue

Year 2024 Volume: 14 Number: 4

DOI

https://doi.org/10.31466/kfbd.1415301

IZ

https://izlik.org/JA97HK35BS

APA

Kılıç, M. S. (2024). Farklı Metalik Parçacıklarla Modifiye Edilmiş Polikaprolakton Filmlerin Difüzyon Katsayısına Etkisi. Karadeniz Fen Bilimleri Dergisi, 14(4), 1665-1678. https://doi.org/10.31466/kfbd.1415301

The published articles in The Black Sea Journal of Sciences are licensed under Creative Commons Attribution-NonCommercial 4.0 International

Effect of Polycaprolactone Films Modified with Different Metallic Particles on Diffusion Coefficient

Abstract

Keywords

Farklı Metalik Parçacıklarla Modifiye Edilmiş Polikaprolakton Filmlerin Difüzyon Katsayısına Etkisi

Öz

Anahtar Kelimeler

References

Details

Primary Language

Subjects

Journal Section

Authors

Publication Date

Submission Date

Acceptance Date

Published in Issue

DOI

IZ

Cite