Development of nano titanium dioxide modified carbon paste electrode for determination of chloramphenicol in vaname shrimp (Litopenaeus vannamei) pond water by cyclic voltammetry

Authors

Nafisatuz Zahro , Pirim Setiarso

DOI:

10.29303/jpm.v18i6.5844

Published:

2023-11-30

Issue:

Vol. 18 No. 6 (2023): November 2023

Keywords:

Chloramphenicol, Carbon Paste Electrode, Nano Titanium Dioxide, Cyclic Voltammetry

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Zahro, N., & Setiarso, P. (2023). Development of nano titanium dioxide modified carbon paste electrode for determination of chloramphenicol in vaname shrimp (Litopenaeus vannamei) pond water by cyclic voltammetry. Jurnal Pijar Mipa, 18(6), 986–993. https://doi.org/10.29303/jpm.v18i6.5844

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Abstract

Chloramphenicol is an antibiotic that has activity against aerobic, anaerobic, and fungal bacteria and is often used in vaname shrimp farming pond water. Behind its usefulness, chloramphenicol has side effects for health, such as aplastic anemia, bone marrow suppression, stomach intestinal disorders, and optical and peripheral neuropathy. This study aims to determine the ability of carbon paste electrodes modified with nano titanium dioxide to detect chloramphenicol levels in vaname shrimp pond water by cyclic voltammetry. This research has successfully made an electrochemical sensor as a nano titanium dioxide-modified carbon paste electrode to detect chloramphenicol in vaname shrimp pond water samples. Nano titanium dioxide used as a modifier in carbon paste electrodes was characterized by XRD (X-Ray Diffraction) and FTIR (Fourier Transform Infrared), while the study of electrochemical characteristics using cyclic voltammetry method. The electrochemical sensor that has been made is a nano titanium dioxide-modified carbon paste electrode that can detect chloramphenicol in vaname shrimp pond water using the cyclic voltammetry method.

References

Anugrah, A., & Alfarizi, A. (2021). Literature Review Potensi dan Pengelolaan Sumber Daya Perikanan Laut di Indonesia. Jurnal Sains Edukatika Indonesia (JSEI), 3(2), 31-36.

Setiawan, A. (2022). Keanekaragaman Hayati Indonesia: Masalah dan Upaya Konservasinya. Indonesian Journal of Conservation, 11(1), 13-21. doi:10.15294/ijc.v11i1.34532

Febrianti, A., Miftachurrohmah, A., Jannah, A., Muliawan, Y., & Sabil A. A. (2019). Water Quality Controller for Cultivation of Vannamei Shrimp (Litopenaeus vannamei) in Wedoro Village, Glagah District, Lamongan Regency. Journal of Innovation and Applied Technology, 5(1), 848 - 854.

Sa'adah, W. (2018). Analisa Kelayakan Usaha Budidaya Udang Vannamei di Desa Dukuh Tunggal, Kecamatan Glagah, Kabupaten Lamongan. Buletin Ilmiah "MARINA" Sosial Ekonomi Kelautan dan Perikanan, 4(1), 33 - 37. doi:10.15578/marina.v4i1.7327

Asfani, D., Hernanda, I., Negara, I., Suwadi, Affandi, Kuswidiastuti, D., Suryani, T. (2023). Alat Pemberi Pakan Udang Otomatis Portabel Berbasis Panel Surya guna Membantu Proses Budidaya Tambak Udang di Desa Tambak Ploso Kabupaten Lamongan. Sewagati, 7(3), 353-360. doi:10.12962/j26139960.v7i3.497

Abudi, C., Koniyo, Y., Suherman, S., & Lamadi, A. (2023). Identifikasi Infeksi WSSV (White Spot Syndrome Virus) pada Udang Vaname (Litopenaeus vannamei) dengan Metode PCR (Polimerace Chain Reaction) di Kecamatan Wanggarasi. Jurnal Ilmiah Multidisiplin, 2(1), 265-273.

Visakhadevi, J., Hidayati, N., Fitrani, M., & Andriyono, S. (2023). Aplikasi Metode ELISA dalam Deteksi Residu Antibiotik Kloramfenikol pada Produk Olahan Perikanan. PoluSea, 1(1), 1-9.

Sari, J., & Hafludin. (2023). Analisis Kadar Residu Antibiotik Kloramfenikol pada Udang Vannamei (Litopenaeus vannamei) di Kabupaten Bangkalan dengan Metode ELISA (Enzym Linked Immunosorbent Assay). Juvenil, 4(2), 84-89. doi:10.21107/juvenil.v4i2.18075

Habibah, Z., & Setiarso, P. (2016). Pembuatan Elektroda Pasta Karbon Termodifikasi Bentonit untuk Analisis Ni(II) pada Kerang Darah (Anadara granosa) secara Voltametri Siklik. UNESA Journal of Chemistry, 5(2), 94-99.

Rahayu, R. (2020). Analisis Kadar Klorin (Cl) dalam Beras dengan Metode Voltametri Siklik Menggunakan Elektroda Platina (Pt). Laporan Tugas Akhir. Yogyakarta: Universitas Islam Indonesia.

Cahyotomo, A., Panglipur, H., Tirta, A., & Madiabu, H. (2022). Deteksi Metil Paraben secara Voltametri Menggunakan Elektroda Pasta Karbon. Warta Akab, 46(1), 16-20. doi:10.55075/wa.v46i1.79

Suprasetyo, A., & Setiarso, P. (2016). Pembuatan Elektroda Pasta Karbon Termodifikasi Zeolit untuk Analisis Fenol Cyclic Stripping Voltammetry. UNESA Journal of Chemistry, 5(3), 86-93.

Inggriani, F., & Setiarso, P. (2021). Pembuatan Elektroda Pasta Karbon untuk Analisis Parasetamol secara Differential Pulse Voltametri. Indonesian Chemistry and Application Journal, 4(2), 27-31. doi:10.26740/icaj.v4n2.p27-31

Puspita, F., & Noviandri, I. (2021). Optimasi Pembuatan Elektroda Pasta Karbon Termodifikasi Poli(Metil Jingga) untuk Penentuan Bisphenol A secara Voltametri. Warta Akab, 45(1), 14-20.

Wei, Q., Wu, L., Zhu, M., Wang, Z., Huang, Z., & Wang, M. (2023). Porous Nitrogen-Doped Reduced Graphene Oxide-Supported CuO@Cu2O Hybrid Electrodes for Highly Sensitive Enzyme-Free Glucose Biosensor. iScience, 26(3), 1-17. doi:https://doi.org/10.1016/j.isci.2023.106155

Wulandari. (2023). Uji Aktivasi Antioksidan Senyawa Fukosantin dari Cyclotella striata Menggunakan Metode Voltametri Siklik. Skripsi. Bandar Lampung: Universitas Lampung.

Faria, L., Lisboa, T., Alves, G., Matos, M., Munoz, R., & Matos, R. (2021). Adsortive Stripping Voltammetric Determination of Chloramphenicol Residues in Milk Samples using Reduces Graphene Oxide Sensor. Analytical Methods, 13(47), 5711-5718. doi:10.1039/D1AY01756J

Juliana, M., & Yulian, M. (2020). Identifikasi Kloramfenikol pada Udang Vaname (Litopenaeus vannamei) Menggunakan Liquid Chromatography (HPLC). AMINA, 2(1), 13-18. doi:10.22373/amina.v2i1.493

Tumanduk, R., Massi, M., Agus, R., & Hamid, F. (2023). Analisis Residu Amoksilin pada Hepar dan Ventrikulus Ayam Petelur di Pasar Tradisional Makassar. Jurnal Ilmu Alam dan Lingkungan, 14(2), 20-28. doi:10.20956/jal.v14i2.27900

Triana, S. (2020). Elektroda Pasta Karbon Termodifikasi TiO2 Nano untuk Deteksi Bisfenol-A (BPA) dalam Air Mineral secara Voltametri Siklik. Laporan Tugas Akhir. Yogyakarta: Universitas Islam Indonesia.

Ariani, F. (2020). Pengembangan Elektroda Kerja Berbasis EPK/TiO2 untuk Monitoring Bisphenol-B pada Plastik secara Voltametri Siklik. Skripsi. Yogyakarta: Universitas Islam Indonesia.

Syuhada, N. (2023). Fabrikasi dan Uji Luas Permukaan Material Microsphere-Nanorod Titanium Dioksida. Spin, 5(1), 146-155. doi:10.20414/spin.v5i1.7157

Abdallah, H., Adarosy, M. H., Hegazy, H. S., & Abdelhameed, R. E. (2022). Potential of Green Synthesized Titanium Dioxide Nanoparticles for Enhancing Seedling Emergence, Vigor and Tolerance Indices and DPPH Free Radical Scavenging in Two Varieties of Soybean under Salinity Stress. BMC Plant Biology, 22(1), 1-18. doi:10.1186/s12870-022-03945-7

Nurfirzatulloh, I., Suherti, I., Insani, M., Shafira, R., & Abriyani, E. (2023). Literature Review Article: Identifikasi Gugus Fungsi Tanin pada Beberapa Tumbuhan dengan Instrumen FTIR. Jurnal Ilmiah Wahana Pendidikan, 9(4), 201-209. doi:10.5281/zenodo.7678425

Kundiman, N., Kurnia, Indrayana, I., & Sadjab, B. (2023). Pengaruh Variasi Suhu Kalsinasi terhadap Parameter Mikrostruktur (Struktur Kristal dan Gugus Fungsi) Nanopartikel TiO2 sebagai Kandidat Material Fotokatalitik. Journal Online of Physics, 8(3), 14-20. doi:10.22437/jop.v8i3.26814

Astuti, A., & Ningsi, S. (2017). Sintesis dan Karakterisasi Nanopartikel Titanium Dioksida (TiO2) Menggunakan Metode Sonokimia. Jurnal Ilmu Fisika Universitas Andalas, 9(1), 26-32. doi:10.25077/jif.9.1.26-32.2017

Wahyuni, W., Darusman, L., & Herlina, D. (2017). Fabrication and Analitical Performance Evaluation of Carbon Paste Electrode using Cyclic Voltammetry. Analytical and Enviromental Chemistry, 2(2), 12-25.

Suseno, H., Hudiyono, S., & Muslim, M. (2016). Elimination of Chloramphenicol by Tiger Shrimp (Panaeus monodon) and White Shrimp (Litopenaeus vannamei). HAYATI Journal of Bioscience, 23(3), 117-120. doi:10.1016/j.hjb.2016.07.001

Virgianti, S., Moelyaningrum, A., & Ningrum, P. (2022). Kandungan Residu Kloramfenikol pada Udang Putih (Litopenaeus vannamei). Buletin Keslingmas, 41(4), 149-155. doi:10.31983/keslingmas.v41i4.9332

Badan Pengawas Obat dan Makanan. (2023). Bahan Tambahan yang Dilarang Digunakan dalam Produk Makanan. Retrieved Juni 20, 2023, from https://standarpangan.pom.go.id/berita/bahan-tambahan-yang-dilarang-digunakan-dalam-produk-pangan

Peraturan Menteri Kesehatan RI. (2012). Peraturan Menteri Kesehatan Republik Indonesia Nomor 33 Tahun 2012 tentang Bahan Ta,bahan Pangan (BTP). Jakarta: Kementerian Kesehatan Republik Indonesia.

Badan Standarisasi Nasional. (2013). Persyaratan Mutu dan Keamanan Ikan Segar. Jakarta: Badan Standarisasi Nasional.

Peraturan Menteri Kelautan dan Perikanan RI. (2015). Peraturan Menteri Kelautan dan Perikanan RI Nomor 39 Tahun 2015 tentang Pengendalian Residu Obat Ikan, Bahan Kimia, dan Kontaminan pada Kegiatan Pembudidayaan Ikan Konsumsi. Jakarta: Kementerian Kelautan dan Perikanan Republik Indonesia.

Peraturan Menteri Kelautan dan Perikanan RI. (2019). Peraturan Menteri Kelautan dan Perikanan RI Nomor 37 Tahun 2019 tentang Pengendalian Residu pada Kegiatan Pembudidayaan Ikan Konsumsi. Jakarta: Kementerian Kelautan dan Perikanan Republik Indonesia.

Author Biographies

Nafisatuz Zahro, Universitas Negeri Surabaya

Pirim Setiarso, Universitas Negeri Surabaya

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Copyright (c) 2023 Nafisatuz Zahro, Pirim Setiarso

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