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109Hong Liu, Guoping Zhang, Cong-Qiang Liu, Ling Li and Meng Xiang.
The occurrence of chloramphenicol and tetracyclines in municipal sewage and the Nanming River, Guiyang City, China, J. Environ. Monit., 2009, 11, 1199. Nadine Arnaud and Joseph Georges.
, Analyst, 2001, 126, 694. Anna-Liisa Myllyniemi, Hannu Sipilä, Lasse Nuotio, Anneli Niemi and Tuula Honkanen-Buzalski.
An indirect conductimetric screening method for the detection of antibiotic residues in bovine kidneys, Analyst, 2002, 127, 1247. Philip J. Lowthian and Michael Thompson.
Bump-hunting for the proficiency tester—searching for multimodality, Analyst, 2002, 127, 1359. Seamus O’Connor, Jonas Locke and Diana S. Aga.
Addressing the challenges of tetracycline analysis in soil: extraction, clean-up, and matrix effects in LC-MS, J. Environ. Monit., 2007, 9, 1254. Marc Cherlet, Siegrid De Baere and Patrick De Backer.
Quantitative analysis of oxytetracycline and its 4-epimer in calf tissues by high-performance liquid chromatography combined with positive electrospray ionization mass spectrometry, Analyst, 2003, 128, 871. Diana S. Aga, Randall Goldfish and Pankaj Kulshrestha.
Application of ELISA in determining the fate of tetracyclines in land-applied livestock wastes, Analyst, 2003, 128, 658. Anna-Liisa Myllyniemi, Lasse Nuotio, Erja Lindfors and Hannu Korkeala.
An automated turbidimetric method for the identification of certain antibiotic groups in incurred kidney samples, Analyst, 2004, 129, 265. Yan Xiong, Houjiang Zhou, Zhujun Zhang, Deyong He and Chao He.
Molecularly imprinted on-line solid-phase extraction combined with flow-injection chemiluminescence for the determination of tetracycline, Analyst, 2006, 131, 829. Zhudong Wu, Linlin Chen, Chaosheng Xing, Deli Jiang, Jimin Xie and Min Chen.
Controlled synthesis of BiS/ZnS microspheres by an in situ ion-exchange process with enhanced visible light photocatalytic activity, Dalton Trans., 2013, 42, 12980.