TỔNG HỢP VẬT LIỆU SILICA GEL MANG CHẤT LỎNG ION KHUNG PYRROLIDINE LÀM CỘT CHIẾT PHA RẮN TRONG PHÂN TÍCH ĐỒNG THỜI KHÁNG SINH ENROFLOXACIN, NORFLOXACIN VÀ DIFLOXACIN
Tóm tắt
Chúng tôi đã phát triển một loại vật liệu mới là sử dụng chất lỏng ion mang lên silica gel làm vật liệu chiết pha rắn để phân tích fluoroquinolones. Trong nghiên cứu này, 1-methyl-1-octadecylpyrrolidinium bromide đã được tổng hợp và cố định lên silica gel (ILSPE). Cấu trúc của chất lỏng ion và chất lỏng ion gắn lên silica được phân tích bằng FT-IR, 1H và 13C NMR, TGA-DT, SEM, BET và EDX. Vật liệu được hình thành dựa trên liên kết hydrogen và tương tác van der Waals giữa silica gel và chất lỏng ion. Pha tĩnh này chứng minh là vật liệu chiế pha rắn hiệu quả lưu giữ enrofloxacin, norfloxacin và difloxacin. Cuối cùng, vật liệu được áp dụng trong xử lí mẫu trứng gà và tôm chứa enrofloxacin và difloxacin với hiệu suất thu hồi cao (80-110%).
Từ khóa
Toàn văn:
PDFTrích dẫn
Appelbaum, P. C., & Hunter, P. A. (2000). The fluoroquinolone antibacterials: past, present and future perspectives. International journal of antimicrobial agents, 16(1), 5-15.
Bailac, S., Barrón, D., & Barbosa, J. (2006). New extraction procedure to improve the determination of quinolones in poultry muscle by liquid chromatography with ultraviolet and mass spectrometric detection. Analytica Chimica Acta, 580(2), 163-169.
Bitas, Dimitrios, & Samanidou, Victoria F. (2016). Effective cleanup for the determination of six quinolone residues in shrimp before HPLC with diode array detection in compliance with the European Union Decision 2002/657/EC. Journal of separation science, 39(24), 4805-4811.
Eliopoulos, G. M., Klimm, K., Eliopoulos, C. T., Ferraro, M. J., & Moellering Jr., R. C.. (1993). In vitro activity of CP-99,219, a new fluoroquinolone, against clinical isolates of gram-positive bacteria. Antimicrobial agents and chemotherapy, 37(2), 366-370.
Fontanals, Núria, Borrull, Francesc, & Marcé, Rosa M. (2012). Ionic liquids in solid-phase extraction. TrAC Trends in Analytical Chemistry, 41, 15-26.
Gajda, Anna, Posyniak, Andrzej, Zmudzki, Jan, Gbylik, Malgorzata, & Bladek, Tomasz (2012). Determination of (fluoro) quinolones in eggs by liquid chromatography with fluorescence detection and confirmation by liquid chromatography–tandem mass spectrometry. Food chemistry, 135(2), 430-439.
Gharehbaghi, Maysam, & Shemirani, Farzaneh (2012). Ionic liquid modified silica sorbent for simultaneous separation and preconcentration of heavy metals from water and tobacco samples prior to their determination by flame atomic absorption spectrometry. Analytical Methods, 4(9), 2879-2886.
Goldman, Emanuel (2004). Antibiotic abuse in animal agriculture: Exacerbating drug resistance in human pathogens. Human and Ecological Risk Assessment, 10(1), 121-134.
Lu, Zhuliangzi, Deng, Fenfang, He, Rong, Tan, Lei, Luo, Xiaoyan, Pan, Xinhong, & Yang, Zhicong. (2019). A pass-through solid-phase extraction clean-up method for the determination of 11 quinolone antibiotics in chicken meat and egg samples using ultra-performance liquid chromatography tandem mass spectrometry. Microchemical Journal, 151, 104213.
Nguyen, T. T., Nguyen, H. D. T., Huynh, T. T. T., Dinh, D. M. H., Nguyen, T. H. L., Doan, L. H., T., . . . Tran, H. P.(2022). Ionic liquid-immobilized silica gel as a new sorbent for solid-phase extraction of heavy metal ions in water samples. RSC Advances, 12(31), 19741-19750. doi: 10.1039/D2RA02980D
Ramos, Macarena, Aranda, Angela, Garcia, Elena, Reuvers, Thea, & Hooghuis, Henny (2003). Simple and sensitive determination of five quinolones in food by liquid chromatography with fluorescence detection. Journal of Chromatography B, 789(2), 373-381.
Saleem, Sarah, Saqib, Ahmad Nauman Shah, Mujahid, Adnan, Hanif, Muhammad, Mustafa, Ghulam, Mahmood, Tariq, . . . Khan, Abdur Rahman (2014). Extraction of Pb (II) from water samples by ionic liquid-modified silica sorbents. Desalination and Water Treatment, 52(40-42), 7915-7924.
Sharma, Prabodh Chander, Jain, Ankit, & Jain, Sandeep (2009). Fluoroquinolone antibacterials: a review on chemistry, microbiology and therapeutic prospects. Acta Pol Pharm, 66(6),
-604.
Toussaint, B, Chedin, M, Bordin, G, & Rodriguez, A. R. (2005). Determination of (fluoro) quinolone antibiotic residues in pig kidney using liquid chromatography–tandem mass spectrometry: I. Laboratory-validated method. Journal of Chromatography A, 1088(1-2), 32-39.
Vafaeezadeh, Majid, & Fattahi, Alireza (2014). Interaction of ionic liquids with the surface of silica gel using nanocluster approach: a combined density functional theory and experimental study. Journal of Physical Organic Chemistry, 27(2), 163-167.
Wang, Yuanpeng, Sun, Ying, Xu, Bo, Li, Xinpei, Wang, Xinghua, Zhang, Hanqi, & Song, Daqian (2015). Matrix solid-phase dispersion coupled with magnetic ionic liquid dispersive liquid–liquid microextraction for the determination of triazine herbicides in oilseeds. Analytica Chimica Acta, 888, 67-74.
Zhao, Handong, Dai, Bingye, Xu, Longhua, Wang, Xilong, Qiao, Xuguang, & Xu, Zhixiang (2014). Preparation and application of immobilised ionic liquid in solid‐phase extraction for determination of trace acrylamide in food samples coupled with high‐performance liquid chromatography. Journal of the Science of Food and Agriculture, 94(9), 1787-1793.
DOI: https://doi.org/10.54607/hcmue.js.19.9.3563(2022)
Tình trạng
- Danh sách trống