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Analytical Letters Volume 41, 2008 - Issue 18
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Synthesis of Molecularly Imprinted Polymer for Sensitive Penicillin Determination in Milk

Juankun Zhang Tianjin Key Lab of Industrial Microbiology, College of Biotechnology, Tianjin University of Science and Technology, Tianjin, P. R. ChinaCorrespondence[email protected]
,
Hui Wang† Tianjin Key Lab of Industrial Microbiology, College of Biotechnology, Tianjin University of Science and Technology, Tianjin, P. R. China
,
Wusheng Liu† Tianjin Key Lab of Industrial Microbiology, College of Biotechnology, Tianjin University of Science and Technology, Tianjin, P. R. China
,
Lirong Bai Tianjin Key Lab of Industrial Microbiology, College of Biotechnology, Tianjin University of Science and Technology, Tianjin, P. R. China
,
Ning Ma Tianjin Key Lab of Industrial Microbiology, College of Biotechnology, Tianjin University of Science and Technology, Tianjin, P. R. China
&
Jinhui Lu Tianjin Key Lab of Industrial Microbiology, College of Biotechnology, Tianjin University of Science and Technology, Tianjin, P. R. China
Pages 3411-3419 | Received 03 Jun 2008, Accepted 05 Aug 2008, Published online: 04 Dec 2008

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Nazia Tarannum, Olga D. Hendrickson, Shahjadi Khatoon, Anatoly V. Zherdev & Boris B. Dzantiev. (2020) Molecularly imprinted polymers as receptors for assays of antibiotics. Critical Reviews in Analytical Chemistry 50:4, pages 291-310.
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Mahdieh Sadat Mohsenzadeh, Arash Mohammadinejad & Seyed Ahmad Mohajeri. (2018) Simple and selective analysis of different antibiotics in milk using molecularly imprinted polymers: a review. Food Additives & Contaminants: Part A 35:10, pages 1959-1974.
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Shuhai Jiang, Jinfeng Xu, Peidong Xu, Lijuan Liu, Yi Chen, Changsheng Qiao, Shufeng Yang, Zuoliang Sha & Juankun Zhang. (2014) A Novel Molecularly Imprinted Sensor for Direct Tartrazine Detection. Analytical Letters 47:2, pages 323-330.
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M. P. Divya, YudhishthirS. Rajput & Rajan Sharma. (2010) Synthesis and Application of Tetracycline Imprinted Polymer. Analytical Letters 43:6, pages 919-928.
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Articles from other publishers (18)

Özlem Biçen Ünlüer, Rıdvan Say & Arzu Ersöz. 2024. Green Imprinted Materials. Green Imprinted Materials 237 267 .
Shahin Haghdoust, Usman Arshad, Adnan Mujahid, Leo Schranzhofer & Peter Alexander Lieberzeit. (2021) Development of a MIP-Based QCM Sensor for Selective Detection of Penicillins in Aqueous Media. Chemosensors 9:12, pages 362.
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Masoumeh Sarabaegi & Mahmoud Roushani. (2021) Rapid and sensitive determination of Pseudomonas aeruginosa by using a glassy carbon electrode modified with gold nanoparticles and aptamer-imprinted polydopamine. Microchemical Journal 168, pages 106388.
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Semra Akgönüllü, Handan Yavuz & Adil Denizli. 2021. Molecular Imprinting for Nanosensors and Other Sensing Applications. Molecular Imprinting for Nanosensors and Other Sensing Applications 309 334 .
Xiaoyu Zhao, Zhenni Guo & Haocun Yang. 2021. Molecularly Imprinted Polymer Composites. Molecularly Imprinted Polymer Composites 345 380 .
Cansu Ilke Kuru, Fulden Ulucan, Kevser Kuşat & Sinan Akgöl. (2020) A model study by using polymeric molecular imprinting nanomaterials for removal of penicillin G. Environmental Monitoring and Assessment 192:6.
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Rafael Rovatti Pupin, Marcos Vinicius Foguel, Luís Moreira Gonçalves & Maria del Pilar T. Sotomayor. (2019) Magnetic molecularly imprinted polymers obtained by photopolymerization for selective recognition of penicillin G. Journal of Applied Polymer Science 137:13.
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Xiaoyu Zhao, Yingzi Liu, Juanjuan Zuo, Jin Zhang, Liang Zhu & Juankun Zhang. (2017) Rapid and sensitive determination of tartrazine using a molecularly imprinted copolymer modified carbon electrode (MIP-PmDB/PoPD-GCE). Journal of Electroanalytical Chemistry 785, pages 90-95.
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Juanjuan Zuo, Xiaoyu Zhao, Xiaocui Ju, Shue Qiu, Wenshuai Hu, Ting Fan & Juankun Zhang. (2016) A New Molecularly Imprinted Polymer (MIP)‐based Electrochemical Sensor for Monitoring Cardiac Troponin I (cTnI) in the Serum. Electroanalysis 28:9, pages 2044-2049.
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Geert Van Royen, Peter Dubruel, Stephanie Van Weyenberg & Els Daeseleire. (2016) Evaluation and validation of the use of a molecularly imprinted polymer coupled to LC–MS for benzylpenicillin determination in meat samples. Journal of Chromatography B 1025, pages 48-56.
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Javier L. Urraca, Raquel Chamorro-Mendiluce, Guillermo Orellana & Maria C. Moreno-Bondi. (2015) Molecularly imprinted polymer beads for clean-up and preconcentration of ?-lactamase-resistant penicillins in milk. Analytical and Bioanalytical Chemistry 408:7, pages 1843-1854.
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Behrouz Ghorani, Nick Tucker & Masakazu Yoshikawa. (2015) Approaches for the assembly of molecularly imprinted electrospun nanofibre membranes and consequent use in selected target recognition. Food Research International 78, pages 448-464.
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Geert Van Royen, Peter Dubruel & Els Daeseleire. (2014) Development and Evaluation of a Molecularly Imprinted Polymer for the Detection and Cleanup of Benzylpenicillin in Milk. Journal of Agricultural and Food Chemistry 62:35, pages 8814-8821.
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Michael J. Whitcombe, Nicole Kirsch & Ian A. Nicholls. (2014) Molecular imprinting science and technology: a survey of the literature for the years 2004-2011. Journal of Molecular Recognition 27:6, pages 297-401.
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M. I. Yakhkind, K. R. Tarantseva, M. A. Marynova, P. A. Storozhenko & M. M. Rasulov. (2015) Molecularly imprinted polymers: possible use for isolation of biosynthetic antibiotics. Russian Chemical Bulletin 63:5, pages 1049-1056.
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Juankun Zhang, Min Li, Peidong Xu, Shuhai Jiang, Yuliang Liu, Yi Chen, Lijuan Liu & Zuoliang Sha. (2013) Directly fast detection of digoxin in the serum sample by the synthetic receptor sensor. Materials Science and Engineering: B 178:18, pages 1191-1194.
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Cristina Giovannoli, Laura Anfossi, Flavia Biagioli, Cinzia Passini & Claudio Baggiani. (2013) Solid phase extraction of penicillins from milk by using sacrificial silica beads as a support for a molecular imprint. Microchimica Acta 180:15-16, pages 1371-1377.
Crossref
Patricia Regal, M?nica D?az-Bao, Roc?o Barreiro, Alberto Cepeda & Cristina Fente. (2012) Application of molecularly imprinted polymers in food analysis: clean-up and chromatographic improvements. Open Chemistry 10:3.
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