Research Article
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Disposable Voltammetric Determination of Celestine Blue at a Pencil Graphite Electrode

Year 2024, Volume: 10 Issue: 1, 106 - 115, 15.03.2024
https://doi.org/10.28979/jarnas.1369727

Abstract

The proposed study describes a novel and disposable voltammetric sensor that designed for the sensitive determination of celestine blue (CelsB) using a pencil graphite electrode (PGE). The electrochemical characterization study of the designed sensor was performed by recording the cyclic voltammograms (CVs) and electrochemical impedance (EI) curves in 5.0 mM of Fe(CN)63-/4- including 0.10 M of KCl, and compared with the other carbon-based electrodes such as carbon paste (CPE) and glassy carbon (GCE) electrodes. The electrochemical behaviour of CelsB was examined at different carbon-based electrodes including PGE, CPE, and GCE by the cyclic voltammetric (CV) method. The recorded CVs showed that the remarkable response obtained at PGE toward oxidation of CelsB. Moreover, the PGE shows a wide linear range (4.0 − 150 μM) and detects the CelsB with a notable limit of detection (1.21 μM). In addition, the results from the interference studies proved that the PGE enables selective voltammetric determination of CelsB in presence of various species. A feasibility study for CelsB sensor was also tested on tap water and cherry apple juice samples and the recovery values obtained between 96.2 − 103 % with high precision and accuracy indicated that the PGE shows an acceptable and good applicability to real samples.

References

  • V. Aruna Janani, D. Gokul, N. Dhivya, A. Nesarani, K. Mukilan, A. Suresh Kumar, M. Vignesh Kumar, Optimization studies on methyl orange (MO) dye adsorption using activated carbon nanoadsorbent of ocimum basilicum linn leaves, Journal of Nanomaterials 2023 (2023) Article ID 7969512 14 pages.
  • M. Roushani, Z. Saedi, Z. Mirzaei Karazan, A. Azadbakhat, Electrochemical detection of celestine blue based on screen printed carbon electrode modified with molecular imprinted polymer and NiO nanoparticles, Analytical and Bioanalytical Chemistry Research 8 (4) (2021) 493–504.
  • K. G. Akpomie, J. Conradie, Biosorption and regeneration potentials of magnetite nanoparticle loaded solanum tuberosum peel for celestine blue dye, International Journal of Phytoremediation 23 (4) (2021) 347–361.
  • P. S. Ganesh, G. Shimoga, S. H. Lee, S. Y. Kim, E. E. Ebenso, Interference free simultaneous detection of dihydroxy benzene isomers at cost‐effective and reliable celestine blue modified glassy carbon electrode, ChemistrySelect 6 (9) (2021) 2379–2386.
  • Y. Chen, Y. Zhong, J. X. Ye, Y. Lei, A. L. Liu, Facile label-free electrochemical dna biosensor for detection of osteosarcoma-related survivin gene, Biosensors 12 (9) (2022) 747 11 pages.
  • A. Valipour, M. Roushani, TiO2 nanoparticles doped with celestine blue as a label in a sandwich immunoassay for the hepatitis C virus core antigen using a screen printed electrode, Microchimica Acta 184 (2017) 2015–2022.
  • A. Noorbakhsh, M. Khakpoor, M. Rafieniya, E. Sharifi, M. Mehrasa, Highly sensitive electrochemical hydrogen peroxide sensor based on iron oxide‐reduced graphene oxide‐chitosan modified with DNA‐celestine blue, Electroanalysis 29 (4) (2017) 1113–1123.
  • E. Hamidi-Asl, J. B. Raoof, A. S. Meibodi, Z. H. Bazgir, Celestine blue as a new indicator in electrochemical DNA biosensors, Science China Chemistry 59 (1) (2016) 128–134.
  • N. Abbasi, S. A. Khan, T. A. Khan, Response surface methodology mediated process optimization of celestine blue B uptake by novel custard apple seeds activated carbon/FeMoO4 nanocomposite, Journal of Water Process Engineering 43 (2021) Article ID 102267 14 pages.
  • M. S. Saad, L. Balasubramaniam, M. D. H. Wirzal, N. S. Abd Halim, M. R. Bilad, N. A. H. Md Nordin, F. N. Ramli, Integrated membrane–electrocoagulation system for removal of celestine blue dyes in wastewater, Membranes 10 (8) (2020) 184 12 pages.
  • K. Pliuta, A. Chebotarev, A. Pliuta, D. Snigur, Voltammetric determination of allura red AC onto carbone‐paste electrode modified by silica with embedded cetylpyridinium chloride, Electroanalysis 33 (4) (2021) 987–992.
  • E. Murugan, A. Poongan, A. Dhamodharan, Electrochemical sensing of acetaminophen, phenylephrine hydrochloride and cytosine in drugs and blood serum samples using β-AgVO3/ZrO2@g-C3N4 composite coated GC electrode, Journal of Molecular Liquids 348 (2022) 118447 11 pages.
  • T. Erşan, D. G. Dilgin, E. Kumrulu, U. Kumrulu, Y. Dilgin, (2023). Voltammetric determination of favipiravir used as an antiviral drug for the treatment of COVID‐19 at pencil graphite electrode, Electroanalysis 35 (4) 11 pages.
  • N. Sedhu, J. J. Kumar, P. Sivaguru, V. Raj, Electrochemical detection of riboflavin in pharmaceutical and food samples using in situ electropolymerized glycine coated pencil graphite electrode, Journal of Electroanalytical Chemistry 928 (2023) 117037 9 pages.
  • S. Karakaya, Development of an amperometric hydrazine sensor at a disposable poly (alizarin red S) modified pencil graphite electrode, Monatshefte für Chemie-Chemical Monthly 150 (2019) 1911–1920.
  • E. Pradeepa, Y. A. Nayaka, N. R. Manjushree, Sensitive and selective determination of vanillin in the presence of dopamine and uric acid using low-cost and trouble-free pencil graphite electrode modified with methyl orange, Materials Chemistry and Physics 296 (2023) 127180 14 pages.
  • L. A. Zambrano-Intriago, C. G. Amorim, A. N. Araújo, D. Gritsok, J. M. Rodríguez-Díaz, M. C. Montenegro, Development of an inexpensive and rapidly preparable enzymatic pencil graphite biosensor for monitoring of glyphosate in waters, Science of The Total Environment 855 (2023). 158865 12 pages.
  • N. M. Omar, E. M. Mabrouk, A. Y. El-Etre, A. I. Ali, A. M. Beltagi, Development of a disposable pencil graphite electrode modified with poly 1,5-diaminonaphthalene for voltammetric determination of flufenamic acid, Journal of The Electrochemical Society 170 (8) (2023) 087501 10 pages.
  • G. Önal, A. Levent, Electrochemical evaluation and determination of vindesine used in cancer chemotherapy at disposable pencil graphite electrode by voltammetric method, Monatshefte für Chemie-Chemical Monthly 154 (2) (2023) 205–213.
  • N. Ghaffari, K. Pokpas, E. Iwuoha, N. Jahed, Sensitive electrochemical determination of bisphenol a using a disposable, electrodeposited antimony-graphene nanocomposite pencil graphite electrode (PGE) and differential pulse voltammetry (DPV), Analytical Letters 57 (6) (2023) 1008–1025.
  • F. Akter, D. C. Kabiraz, M. M. Islam, S. Ahmed, M. A. Hanif, Y. S. Kim, Disposable pencil lead as an electrochemical transducer for monitoring catechol in river and tap water, Coatings 13 (5) (2023) 913 12 pages.
  • R. M. Carvalho, E. R. Pedão, F. M. R. Guerbas, M. P. Tronchini, V. S. Ferreira, J. M. Petroni, B. G. Lucca, Electrochemical study and forensic electroanalysis of fungicide benzovindiflupyr using disposable graphite pencil electrode, Talanta 252 (2023) 123873 7 pages.
  • A. Afkhami, A. Bahiraei, T. Madrakian, Gold nanoparticle/multi-walled carbon nanotube modified glassy carbon electrode as a sensitive voltammetric sensor for the determination of diclofenac sodium, Materials Science and Engineering: C 59 (2016) 168–176.
  • M. Minakshi, K. Wickramaarachchi, Electrochemical aspects of supercapacitors in perspective: from electrochemical configurations to electrode materials processing, Progress in Solid State Chemistry 69 (2023) 100390 10 pages.
  • S. Karakaya, B. Kartal, Y. Dilgin, Development and application of a sensitive, disposable and low-cost electrochemical sensing platform for an antimalarial drug: amodiaquine based on poly (calcein)-modified pencil graphite electrode, International Journal of Environmental Analytical Chemistry 102 (17) (2020) 5136–5149.
  • S. Karakaya, Y. Dilgin, The application of multi-walled carbon nanotubes modified pencil graphite electrode for voltammetric determination of favipiravir used in COVID-19 treatment, Monatshefte für Chemie-Chemical Monthly 154 (2023) 729–739.
  • S. Ayaz, Y. Dilgin, Flow injection amperometric determination of hydrazine based on its electrocatalytic oxidation at pyrocatechol violet modified pencil graphite electrode, Electrochimica Acta 258 (2017) 1086–1095.
  • A. Wilson, B. Sajeevan, M. G. Gopika, A. Babu, K. M. Sreedhar, B. Saraswathyamma, Electrochemical quantification of vanillin using hydrazine derivative modified pencil graphite electrode, Materials Today: Proceedings 80 (2023) 558–563.
Year 2024, Volume: 10 Issue: 1, 106 - 115, 15.03.2024
https://doi.org/10.28979/jarnas.1369727

Abstract

References

  • V. Aruna Janani, D. Gokul, N. Dhivya, A. Nesarani, K. Mukilan, A. Suresh Kumar, M. Vignesh Kumar, Optimization studies on methyl orange (MO) dye adsorption using activated carbon nanoadsorbent of ocimum basilicum linn leaves, Journal of Nanomaterials 2023 (2023) Article ID 7969512 14 pages.
  • M. Roushani, Z. Saedi, Z. Mirzaei Karazan, A. Azadbakhat, Electrochemical detection of celestine blue based on screen printed carbon electrode modified with molecular imprinted polymer and NiO nanoparticles, Analytical and Bioanalytical Chemistry Research 8 (4) (2021) 493–504.
  • K. G. Akpomie, J. Conradie, Biosorption and regeneration potentials of magnetite nanoparticle loaded solanum tuberosum peel for celestine blue dye, International Journal of Phytoremediation 23 (4) (2021) 347–361.
  • P. S. Ganesh, G. Shimoga, S. H. Lee, S. Y. Kim, E. E. Ebenso, Interference free simultaneous detection of dihydroxy benzene isomers at cost‐effective and reliable celestine blue modified glassy carbon electrode, ChemistrySelect 6 (9) (2021) 2379–2386.
  • Y. Chen, Y. Zhong, J. X. Ye, Y. Lei, A. L. Liu, Facile label-free electrochemical dna biosensor for detection of osteosarcoma-related survivin gene, Biosensors 12 (9) (2022) 747 11 pages.
  • A. Valipour, M. Roushani, TiO2 nanoparticles doped with celestine blue as a label in a sandwich immunoassay for the hepatitis C virus core antigen using a screen printed electrode, Microchimica Acta 184 (2017) 2015–2022.
  • A. Noorbakhsh, M. Khakpoor, M. Rafieniya, E. Sharifi, M. Mehrasa, Highly sensitive electrochemical hydrogen peroxide sensor based on iron oxide‐reduced graphene oxide‐chitosan modified with DNA‐celestine blue, Electroanalysis 29 (4) (2017) 1113–1123.
  • E. Hamidi-Asl, J. B. Raoof, A. S. Meibodi, Z. H. Bazgir, Celestine blue as a new indicator in electrochemical DNA biosensors, Science China Chemistry 59 (1) (2016) 128–134.
  • N. Abbasi, S. A. Khan, T. A. Khan, Response surface methodology mediated process optimization of celestine blue B uptake by novel custard apple seeds activated carbon/FeMoO4 nanocomposite, Journal of Water Process Engineering 43 (2021) Article ID 102267 14 pages.
  • M. S. Saad, L. Balasubramaniam, M. D. H. Wirzal, N. S. Abd Halim, M. R. Bilad, N. A. H. Md Nordin, F. N. Ramli, Integrated membrane–electrocoagulation system for removal of celestine blue dyes in wastewater, Membranes 10 (8) (2020) 184 12 pages.
  • K. Pliuta, A. Chebotarev, A. Pliuta, D. Snigur, Voltammetric determination of allura red AC onto carbone‐paste electrode modified by silica with embedded cetylpyridinium chloride, Electroanalysis 33 (4) (2021) 987–992.
  • E. Murugan, A. Poongan, A. Dhamodharan, Electrochemical sensing of acetaminophen, phenylephrine hydrochloride and cytosine in drugs and blood serum samples using β-AgVO3/ZrO2@g-C3N4 composite coated GC electrode, Journal of Molecular Liquids 348 (2022) 118447 11 pages.
  • T. Erşan, D. G. Dilgin, E. Kumrulu, U. Kumrulu, Y. Dilgin, (2023). Voltammetric determination of favipiravir used as an antiviral drug for the treatment of COVID‐19 at pencil graphite electrode, Electroanalysis 35 (4) 11 pages.
  • N. Sedhu, J. J. Kumar, P. Sivaguru, V. Raj, Electrochemical detection of riboflavin in pharmaceutical and food samples using in situ electropolymerized glycine coated pencil graphite electrode, Journal of Electroanalytical Chemistry 928 (2023) 117037 9 pages.
  • S. Karakaya, Development of an amperometric hydrazine sensor at a disposable poly (alizarin red S) modified pencil graphite electrode, Monatshefte für Chemie-Chemical Monthly 150 (2019) 1911–1920.
  • E. Pradeepa, Y. A. Nayaka, N. R. Manjushree, Sensitive and selective determination of vanillin in the presence of dopamine and uric acid using low-cost and trouble-free pencil graphite electrode modified with methyl orange, Materials Chemistry and Physics 296 (2023) 127180 14 pages.
  • L. A. Zambrano-Intriago, C. G. Amorim, A. N. Araújo, D. Gritsok, J. M. Rodríguez-Díaz, M. C. Montenegro, Development of an inexpensive and rapidly preparable enzymatic pencil graphite biosensor for monitoring of glyphosate in waters, Science of The Total Environment 855 (2023). 158865 12 pages.
  • N. M. Omar, E. M. Mabrouk, A. Y. El-Etre, A. I. Ali, A. M. Beltagi, Development of a disposable pencil graphite electrode modified with poly 1,5-diaminonaphthalene for voltammetric determination of flufenamic acid, Journal of The Electrochemical Society 170 (8) (2023) 087501 10 pages.
  • G. Önal, A. Levent, Electrochemical evaluation and determination of vindesine used in cancer chemotherapy at disposable pencil graphite electrode by voltammetric method, Monatshefte für Chemie-Chemical Monthly 154 (2) (2023) 205–213.
  • N. Ghaffari, K. Pokpas, E. Iwuoha, N. Jahed, Sensitive electrochemical determination of bisphenol a using a disposable, electrodeposited antimony-graphene nanocomposite pencil graphite electrode (PGE) and differential pulse voltammetry (DPV), Analytical Letters 57 (6) (2023) 1008–1025.
  • F. Akter, D. C. Kabiraz, M. M. Islam, S. Ahmed, M. A. Hanif, Y. S. Kim, Disposable pencil lead as an electrochemical transducer for monitoring catechol in river and tap water, Coatings 13 (5) (2023) 913 12 pages.
  • R. M. Carvalho, E. R. Pedão, F. M. R. Guerbas, M. P. Tronchini, V. S. Ferreira, J. M. Petroni, B. G. Lucca, Electrochemical study and forensic electroanalysis of fungicide benzovindiflupyr using disposable graphite pencil electrode, Talanta 252 (2023) 123873 7 pages.
  • A. Afkhami, A. Bahiraei, T. Madrakian, Gold nanoparticle/multi-walled carbon nanotube modified glassy carbon electrode as a sensitive voltammetric sensor for the determination of diclofenac sodium, Materials Science and Engineering: C 59 (2016) 168–176.
  • M. Minakshi, K. Wickramaarachchi, Electrochemical aspects of supercapacitors in perspective: from electrochemical configurations to electrode materials processing, Progress in Solid State Chemistry 69 (2023) 100390 10 pages.
  • S. Karakaya, B. Kartal, Y. Dilgin, Development and application of a sensitive, disposable and low-cost electrochemical sensing platform for an antimalarial drug: amodiaquine based on poly (calcein)-modified pencil graphite electrode, International Journal of Environmental Analytical Chemistry 102 (17) (2020) 5136–5149.
  • S. Karakaya, Y. Dilgin, The application of multi-walled carbon nanotubes modified pencil graphite electrode for voltammetric determination of favipiravir used in COVID-19 treatment, Monatshefte für Chemie-Chemical Monthly 154 (2023) 729–739.
  • S. Ayaz, Y. Dilgin, Flow injection amperometric determination of hydrazine based on its electrocatalytic oxidation at pyrocatechol violet modified pencil graphite electrode, Electrochimica Acta 258 (2017) 1086–1095.
  • A. Wilson, B. Sajeevan, M. G. Gopika, A. Babu, K. M. Sreedhar, B. Saraswathyamma, Electrochemical quantification of vanillin using hydrazine derivative modified pencil graphite electrode, Materials Today: Proceedings 80 (2023) 558–563.
There are 28 citations in total.

Details

Primary Language English
Subjects Electrochemistry
Journal Section Research Article
Authors

Mehmet Güneş 0000-0002-8390-590X

Early Pub Date March 15, 2024
Publication Date March 15, 2024
Submission Date October 1, 2023
Published in Issue Year 2024 Volume: 10 Issue: 1

Cite

APA Güneş, M. (2024). Disposable Voltammetric Determination of Celestine Blue at a Pencil Graphite Electrode. Journal of Advanced Research in Natural and Applied Sciences, 10(1), 106-115. https://doi.org/10.28979/jarnas.1369727
AMA Güneş M. Disposable Voltammetric Determination of Celestine Blue at a Pencil Graphite Electrode. JARNAS. March 2024;10(1):106-115. doi:10.28979/jarnas.1369727
Chicago Güneş, Mehmet. “Disposable Voltammetric Determination of Celestine Blue at a Pencil Graphite Electrode”. Journal of Advanced Research in Natural and Applied Sciences 10, no. 1 (March 2024): 106-15. https://doi.org/10.28979/jarnas.1369727.
EndNote Güneş M (March 1, 2024) Disposable Voltammetric Determination of Celestine Blue at a Pencil Graphite Electrode. Journal of Advanced Research in Natural and Applied Sciences 10 1 106–115.
IEEE M. Güneş, “Disposable Voltammetric Determination of Celestine Blue at a Pencil Graphite Electrode”, JARNAS, vol. 10, no. 1, pp. 106–115, 2024, doi: 10.28979/jarnas.1369727.
ISNAD Güneş, Mehmet. “Disposable Voltammetric Determination of Celestine Blue at a Pencil Graphite Electrode”. Journal of Advanced Research in Natural and Applied Sciences 10/1 (March 2024), 106-115. https://doi.org/10.28979/jarnas.1369727.
JAMA Güneş M. Disposable Voltammetric Determination of Celestine Blue at a Pencil Graphite Electrode. JARNAS. 2024;10:106–115.
MLA Güneş, Mehmet. “Disposable Voltammetric Determination of Celestine Blue at a Pencil Graphite Electrode”. Journal of Advanced Research in Natural and Applied Sciences, vol. 10, no. 1, 2024, pp. 106-15, doi:10.28979/jarnas.1369727.
Vancouver Güneş M. Disposable Voltammetric Determination of Celestine Blue at a Pencil Graphite Electrode. JARNAS. 2024;10(1):106-15.


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